US Pat. No. 9,201,035

GAS DETECTING SYSTEM, DEVICE AND METHOD

INDUSTRIAL TECHNOLOGY RES...

1. A gas detecting system, comprising:
a database for storing at least one characteristic signal of at least one target gas;
a voltage unit for outputting a variable pulse voltage waveform corresponding to the at least one target gas;
a detecting unit for increasing its own temperature based on the variable pulse voltage waveform outputted by the voltage
unit to react with gas molecules from a particular space, and to output a sensing signal corresponding to the gas molecules;

a processing unit for performing a dimensionless or normalization calculation on the sensing signal outputted by the detecting
unit according to a reaction temperature of the at least one target gas and outputting a relative signal; and

an analysis unit for comparing a portion of the relative signal outputted by the processing unit with the at least one characteristic
signal in the database to output an analysis result.

US Pat. No. 9,229,612

ELECTRONIC DEVICE, CONTROLLING METHOD FOR SCREEN, AND PROGRAM STORAGE MEDIUM THEREOF

Industrial Technology Res...

1. A controlling method of a screen of an electronic device, wherein the screen includes a display panel and a touch-sensitive
panel, the display panel shows a root window on which all display contents are shown, the controlling method comprising:
receiving a command signal; and
transforming a coordinate system of the screen with a transformation according to the command signal,
wherein the screen has a first mode, a second mode and a third mode, the transformation is enabled during the second mode
only, a content touching function for controlling the display content is enabled during the first mode and the third mode,
the content touching function is disabled during the second mode, and the controlling method further comprises:

switching the screen from the first mode to the second mode by speaking a first voice command, pressing a first physical button,
touching a first display content, or shaking the electronic device N1 times;

switching the screen from the second mode to the first mode by speaking a second voice command, pressing a second physical
button, or shaking the electronic device N2 times;

switching the screen from the second mode to the third mode by speaking a third voice command, pressing a third physical button,
or shaking the electronic device N3 times;

switching the screen from the third mode to the second mode by speaking a fourth voice command, pressing a fourth physical
button, touching a second display content, or shaking the electronic device N4 times; and

switching the screen from the third mode to the first mode by speaking a fifth voice command, pressing a fifth physical button,
touching a third display content, or shaking the electronic device N5 times, where N1, N2, N3, N4, and N5 are natural numbers.

US Pat. No. 9,373,817

SUBSTRATE STRUCTURE AND DEVICE EMPLOYING THE SAME

INDUSTRIAL TECHNOLOGY RES...

1. A substrate structure, comprising:
a flexible substrate having a top surface, a side surface, and a bottom surface; and
a first barrier layer disposed on and contacting the top surface of the flexible substrate, wherein the first barrier layer
consists of Si, N, and Z atoms, wherein the Z atom is selected from a group of H, C, and O atoms, and wherein Si of the first
barrier layer is present in an amount from 35 to 42 atom %, N of the first barrier layer is present in an amount from 10 to
52 atom %, and Z of the first barrier layer is present in an amount from 6 to 48 atom %.

US Pat. No. 9,065,372

MULTI-DRIVING DEVICE AND DRIVING CIRCUIT THEREOF

INDUSTRIAL TECHNOLOGY RES...

1. A multi-driving device, comprising:
a first driving device comprising n inductors, wherein n is a positive integer equal to or larger than 3;
a second driving device; and
a driving circuit coupled to the first driving device and the second driving device and comprising n switch groups coupled
in parallel, wherein each switch group comprises a first switch, a second switch, a third switch and a fourth switch, the
first switch and the second switch are coupled in series, the third switch is serially coupled to the fourth switch and coupled
between the first switch and the second switch, an ith inductor of the first driving device is coupled between the third switch and the fourth switch, and i ranges between 1 and
n;

wherein, in a low speed mode, each first switch and each second switch are turned on; in a high speed mode, the first switch
and the third switch of a first one of the n switch groups are turned on, the second switch and the fourth switch of the first
one of the n switch groups are turned off, the first switch and the third switch of a second one of the n switch groups are
turned off, the second switch of the second one of the n switch groups is turned on, and the fourth switch of the second one
of the n switch groups is selectively turned on or off so as to raise the voltage of the second driving device.

US Pat. No. 9,373,564

SEMICONDUCTOR DEVICE, MANUFACTURING METHOD AND STACKING STRUCTURE THEREOF

Industrial Technology Res...

1. A semiconductor device, comprising:
a substrate, comprising a first surface, a second surface opposite to the first surface, and a plurality of through holes,
wherein the through holes respectively connect the first surface and the second surface;

a redistribution layer, disposed on the first surface;
a plurality of through-silicon vias, disposed in the through holes, and each of the through-silicon vias respectively including
a first end and a second end opposite to each other, wherein the first end of each through-silicon via is connected to the
redistribution layer, and the second end of each through-silicon via protrudes from the second surface;

a plating seed layer, disposed between an inner wall of each of the through holes and the corresponding through-silicon vias;
an anti-oxidation layer, disposed between the plating seed layer and the corresponding through-silicon vias, and a portion
of the anti-oxidation layer covers the second ends of the corresponding through-silicon vias; and

a buffer layer, disposed on the substrate, covering the first surface, and exposing the redistribution layer.

US Pat. No. 9,485,874

PACKAGE SUBSTRATE HAVING PHOTO-SENSITIVE DIELECTRIC LAYER AND METHOD OF FABRICATING THE SAME

Industrial Technology Res...

1. A package substrate, comprising:
an interposer having a first side and a second side opposite to the first side;
at least one conductive through via penetrating from the first side to the second side;
a redistribution layer formed on the first side and electrically connected to the conductive through via;
a photo-sensitive dielectric layer formed on the second side of the interposer;
a molding layer formed to encapsulate the interposer, wherein a bottom surface of the molding layer is aligned with an end
of the conductive through via, and the photo-sensitive dielectric layer directly covers the molding layer and the interposer;
and

at least one conductive via formed in the photo-sensitive dielectric layer and electrically connected to the conductive through
via, wherein the conductive via is in direct physical and electrical contact with the conductive through via,

wherein the photo-sensitive dielectric layer is photo-sensitive polyimide (PSPI).
US Pat. No. 9,136,561

SOLID POLYMER ELECTROLYTE COMPOSITION AND METHOD OF SYNTHESIZING THE SAME

Industrial Technology Res...

1. A solid polymer electrolyte composition, comprising:
at least one lithium salt; and
a crosslinking polymer, comprising:
a first segment comprising a polyalkylene oxide backbone and/or polysiloxane backbone;
a second segment comprising a urea linkage and/or a urethane linkage;
a third segment comprising a silane domain; and
a fourth segment comprising a phenylene structure,
wherein an ionic conductivity value of the solid polymer electrolyte composition at 30° C. is at least 1×10?5 S/cm.

US Pat. No. 9,480,059

METHOD OF INDICATING DOWNLINK CONTROL CHANNEL AND RELATED COMMUNICATION DEVICE

Industrial Technology Res...

1. A method of indicating a downlink (DL) control channel for a network of a wireless communication system, the method comprising:
configuring an enhanced physical control format indicator channel (ePCFICH) according to an amount of resource for transmitting
an enhanced physical DL control channel (ePDCCH) of a subframe, wherein the ePDCCH is dedicate to a communication device of
the wireless communication system or to a group to which the communication device belongs; and

transmitting the ePCFICH to the communication device via a plurality of bits of a physical hybrid automatic repeat request
(HARQ) indicator channel (PHICH) of the subframe, to indicate the amount of resource for transmitting the ePDCCH to the communication
device;

wherein the plurality of bits of the PHICH is encoded according to a code division multiplexing (CDM) rule of the PHICH;
wherein a location of the plurality of bits of the PHICH is determined according to at least one of a cell-specific identifier,
a subframe index of the subframe, a DL system bandwidth of the wireless communication system, system information, a UE-specific
signaling and a UE group-specific signaling; and

wherein a location of the plurality of bits of the ePDCCH is determined according to at least one of a cell-specific identifier,
a subframe index of the subframe, a DL system bandwidth of the wireless communication system, system information, a UE-specific
signaling and a UE group-specific signaling.

US Pat. No. 9,137,931

DATA CENTER MODULE

INDUSTRIAL TECHNOLOGY RES...

12. A data center module, for dissipating heat in a data center, comprising:
a cabinet body, having a first chamber and a second chamber separated from the first chamber by a wall which is located in
the cabinet body, the first chamber defining a cold channel and a heat channel;

at least one server rack, having a plurality of servers placed therein, the at least one server rack being disposed in the
first chamber and having a first side and a second side opposite to each other, with the first side facing to the heat channel,
and the second side facing to the cold channel;

a heat pipe, disposed on and penetrating the wall, the heat pipe having an evaporation end positioned inside the first chamber
and a condensation end positioned inside the second chamber, and

a cooling pipeline combined with the condensation end of the heat pipe and used for eliminating the heat energy of the condensation
end.

US Pat. No. 9,450,247

PREPARATION METHOD OF OLIGOMER-POLYMER AND LITHIUM BATTERY

National Taiwan Universit...

1. A preparation method of an oligomer-polymer, comprising:
reacting a maleimide with a barbituric acid to form a first oligomer-polymer; and
reacting the first oligomer-polymer with a phenylsiloxane oligomer to form a second oligomer-polymer, wherein the phenylsiloxane
oligomer is a compound represented by formula 1:

Ph-Si(OH)xOy   formula 1,
wherein x is 0.65 to 2.82 and y is 0.09 to 1.17.

US Pat. No. 9,385,291

STRUCTURE OF THERMOELECTRIC FILM

Industrial Technology Res...

1. A structure of a thermoelectric film comprising:
a thermoelectric substrate;
a pair of first diamond-like carbon layers respectively sandwiching two opposite surfaces of the thermoelectric substrate
and having a resistivity ranging from about 10?4?-cm to about 10?1?-cm;

a pair of metal interface layers, respectively stacked on the first diamond-like carbon layers and on sides of the first diamond-like
carbon layers away from the thermoelectric substrate and having a resistivity ranging from about 10?3?-cm to about 10?4?-cm;

a pair of metal layers, respectively stacked on the metal interface layers and on sides of the metal interface layers away
from the first diamond-like carbon layers and having a resistivity ranging from about 10?5?-cm to about 10?6?-cm; and

wherein the thermoelectric substrate, the first diamond-like carbon layers, the metal interface layers, and the metal layers
are electrically conductive; and stacked in a direction perpendicular to the two opposite surfaces of the thermoelectric substrate.

US Pat. No. 9,449,029

METHOD AND SYSTEM FOR DIET MANAGEMENT

Industrial Technology Res...

1. A computer-implemented method for diet management, adapted to a diet management system, comprising:
providing a supervector, wherein the supervector is related to at least one diet image;
performing similarity comparison in a database based on the supervector by a comparison device, so as to find out at least
one similar population; and

providing information related to the similar population,
wherein the providing the information related to the similar population comprises:
calculating at least one statistic of the similar population by using at least one multidimensional data of the similar population;
and

providing the information related to the similar population based on the statistic of the similar population.

US Pat. No. 9,408,300

FLEXIBLE DEVICE AND FABRICATION METHOD OF FLEXIBLE DEVICE

Industrial Technology Res...

1. A flexible device having a first area and a second area, wherein a stiffness of a portion of the first area is greater
than a stiffness of the second area, the flexible device comprising:
a flexible substrate comprising a first surface and a second surface opposite to each other, and the second surface of the
flexible substrate has a coarse structure in the first area, such that a surface roughness of the second surface in the first
area is greater than a surface roughness of the second surface in the second area; and

a rigid element disposed on the first surface of the flexible substrate and located in the first area, wherein a stiffness
of the rigid element is greater than a stiffness of the flexible substrate and a projection area of the coarse structure on
the flexible substrate overlaps an area of the rigid element.

US Pat. No. 9,388,815

MULTIPLE-CAPACITY CENTRIFUGAL COMPRESSOR AND CONTROL METHOD THEREOF

INDUSTRIAL TECHNOLOGY RES...

1. A multiple-capacity centrifugal compressor, comprising:
a plurality of capacity-control mechanisms each of which includes an inlet guide vane and an outlet diffuser; and
a controller that calculates a pressure ratio of a pressure of the outlet diffuser to a pressure of the inlet guide vane of
each of the capacity-control mechanisms based on the pressure of the inlet guide vane and the pressure and a temperature of
the outlet diffuser, compares changes in the pressure ratios of the capacity-control mechanisms to determine control priority
for the capacity-control mechanisms, and adjusts the inlet guide vane and outlet diffuser of the each of the capacity-control
mechanisms based on the control priority, to control the plurality of capacity-control mechanisms,

wherein the control priority for the capacity-control mechanisms includes an adjusting order and an adjusting level of the
capacity-control mechanisms.

US Pat. No. 9,432,899

COMMUNICATIONS SYSTEM, USER EQUIPMENT, MOBILITY MANAGEMENT ENTITY AND METHOD THEREOF OF TRANSIENT HANDOVER FOR PERFORMING PACKET OFFLOADING

INDUSTRIAL TECHNOLOGY RES...

1. A method of a transient handover for performing packet offloading, used in a communications system, wherein the communications
system is used in a cellular network, the method comprising:
finding, by a mobility management entity (MME), at least one qualified user equipment (UE) executing an application from a
plurality of user equipment (UEs) according to a determining method, and transmitting a handover-transient request to the
qualified UE;

finding and transmitting, by the qualified UE, an access request to a wireless local area network after receiving the handover-transient
request;

accessing, by the qualified UE, the wireless local area network, and transmitting a handover-transient ACK to the MME;
releasing, by the MME, a bearer resource of the qualified UE, retaining bearer information of the qualified UE, and handing
over the qualified UE from the cellular network to the wireless local area network after receiving the handover-transient
ACK;

detecting, by the qualified UE, whether the wireless local area network satisfies quality-of-service (Qos) of the application
after the qualified UE is handed over from the cellular network to the wireless local area network;

determining whether the wireless local area network satisfies the Qos of the application;
transmitting, by the qualified UE, a first attachment request (ATTACH REQ) to the MME when determining that the wireless local
area network does not satisfy the Qos of the application; and

receiving, by the MME, the first ATTACH REQ transmitted from the qualified UE, transferring the qualified UE to an evolved
packet system mobility management registered state (EMM-REGISTERED State), and re-establishing a cellular data path to handover
the qualified UE from the wireless local area network to the cellular network,

wherein the first ATTACH REQ comprises a Request Type field, and the Request Type field indicates a handover procedure.

US Pat. No. 9,462,251

DEPTH MAP ALIGNING METHOD AND SYSTEM

INDUSTRIAL TECHNOLOGY RES...

1. A depth map aligning method, comprising:
performing a view warping to a left-view image and a right-view image of a real-view image according to a corresponding depth
map to obtain a left-virtual-view image, a right-virtual-view image, a left hole information, and a right hole information;

obtaining by pixel to pixel a residual difference of at least one pixel, which is not a hole, by subtracting pixel value of
the left-virtual-view image and the right-virtual-view image;

performing a reverse warping to obtain a coordinate of the at least one pixel in the real-view image, if the residual difference
of the at least one pixel is larger than a first threshold value; and

performing a depth map aligning by correcting a depth value of the at least one pixel according to depth values of one or
more pixels in a vicinity of the obtained coordinate.

US Pat. No. 9,357,580

METHOD FOR SWITCHING COMMUNICATION CONNECTION MODE, COMMUNICATION SYSTEM, BASE STATION, TRANSMITTER AND RECEIVER

Industrial Technology Res...

1. A method for switching communication connection modes, adapted to a communication system comprising a transmitter, a receiver
and at least one base station, and the method comprising:
when the at least one base station or a core network entity determines that a communication mode between the transmitter and
the receiver requires to be switched from a cellular communication mode to a device-to-device communication mode, sending
a control message by the at least one base station to the transmitter;

stopping transmitting, by the transmitter, at least one first packet to the at least one base station in response to the control
message;

buffering, by the at least one base station, a plurality of transmission-unfinished packets and a plurality of transmission-unfinished
packet statuses related to the transmission-unfinished packets, wherein the transmission-unfinished packets are packets have
been received, by the at least one base station, from the transmitter but have not been transmitted, by the at least one base
station, to the receiver in the cellular communication mode, wherein each of the transmission-unfinished packet statuses is
a packet data convergence protocol sequence number of each of the transmission-unfinished packets; and

receiving, by the receiver, the transmission-unfinished packets and the transmission-unfinished packet statuses related to
the transmission-unfinished packets forwarded by the at least one base station before the at least one base station or the
core network entity has completed switching the communication mode between the transmitter and the receiver from the cellular
communication mode to the device-to-device communication mode.

US Pat. No. 9,350,136

PROGRAMMABLE LASER DEVICE AND METHOD FOR CONTROLLING THE SAME

INDUSTRIAL TECHNOLOGY RES...

1. A programmable laser trigger device, configured to receive a user-programmed waveform command to generate an output laser
trigger signal by executing a waveform command code, the programmable laser trigger device comprising:
an external signal module, configured to interface with the input and the output laser trigger signal when the waveform command
is executed;

a command executing module, comprising:
at least a waveform command memory, configured to store the waveform command;
at least a waveform command decoder, configured to access the waveform command for pre-decoding an executing code;
at least a waveform generator, configured to transform a sequence of waveform trigger parameters into a pulse-width modulation
(PWM) pulse train; and

at least a buffer memory, configured to serve as a waveform trigger parameter buffer between the waveform command decoder
and the waveform generator; and

a management module, configured to manage the programmable laser trigger device;
wherein, the waveform command comprises:
a wait command, configured to wait for an external feedback signal so that following commands are executed after the external
feedback signal is established;

a pulse-width modulation (PWM) command, configured to set the waveform trigger parameters; and
a GOTO command, configured to be triggered by the external feedback signal, the GOTO command comprising an unconditional or
a conditional branch command.

US Pat. No. 9,325,066

COMMUNICATION DEVICE AND METHOD FOR DESIGNING ANTENNA ELEMENT THEREOF

INDUSTRIAL TECHNOLOGY RES...

1. A communication device, comprising:
a ground plane, embedded with a notch at an edge thereof, having at least a first edge and a second edge at the notch; and
an antenna element, disposed at the notch, having at least a first operating frequency band and a second operating frequency
band higher than the first operating frequency band, the antenna element comprising:

a first conductive portion, having a starting terminal as a feeding terminal of the antenna element, wherein the feeding terminal
is electrically coupled to the first edge of the notch via a signal source, and a capacitive coupling portion is formed between
an end terminal of the first conductive portion and the second edge of the ground plane; and

a second conductive portion, having a shorting terminal, electrically coupled or connected to the second edge of the notch,
wherein the first and second edges of the notch are located on different sides and the first edge has a length greater than
a length of the second edge,

wherein the shorting terminal and the feeding terminal are respectively located near two end points of a diagonal line of
the notch, and the first conductive portion extends along the first edge to the second edge, and the capacitive coupling portion
makes the first conductive portion and the first edge of the ground plane forming an equivalent loop resonant structure,

wherein the equivalent loop resonant structure forms an excitation source of the second conductive portion, and the excitation
source excites the second conductive portion for resonance to generate the first and second operating frequency bands of the
antenna element, and the excitation source formed by the equivalent loop resonant structure utilizes the first edge, the second
edge or another edge of the notch as a part of current resonant paths of the second conductive portion,

wherein the second conductive portion has a length smaller than one-fifth wavelength of a lowest operating frequency of a
lowest communication system band covered by the first operating frequency band.

US Pat. No. 9,274,131

DROPLET MANIPULATING DEVICE AND METHOD FOR MANIPULATING DROPLET

INDUSTRIAL TECHNOLOGY RES...

1. A droplet manipulating device, comprising:
a flow channel adapted for accommodating a droplet;
a first magnetic field generator comprising two first magnetic field modules opposite to each other, wherein the two first
magnetic field modules are at two opposite sides of the flow channel, respectively, for producing a first magnetic field on
the flow channel; and

a second magnetic field generator disposed between the two first magnetic field modules, wherein the second magnetic field
generator comprises a plurality of second magnetic field coils for producing a second magnetic field on the flow channel;

wherein, the droplet driven by the first magnetic field and the second magnetic field is in motion in the flow channel.

US Pat. No. 9,150,005

LOW WATER-VAPOR PERMEABLE COMPOSITE FILM AND PACKAGING STRUCTURE

INDUSTRIAL TECHNOLOGY RES...

1. A composite film, comprising:
a 3-layered co-extruded biaxial-oriented film formed of polyester films or polypropylene films comprising a first layer, a
second layer and a third layer stacked in sequence;

an alternating layer structure comprising a plurality of organic protection layers and a plurality of inorganic layers, wherein
the alternating layer structure is formed on the 3-layered co-extruded biaxial-oriented film, wherein the plurality of organic
protection layers and the plurality of inorganic layers are stacked alternately, and the inorganic layers are formed by atom
layer deposition, wherein each of the organic protection layers is formed of polyvinylidene chloride, polyvinylalcohol, ethylene-vinylalcohol
copolymer, transparent esters or combinations thereof or each of the organic protection layers is a polymer layer which is
cross-linked by multi-functional monomers and oligomers, wherein the multi-functional monomers comprise acrylate, epoxy acrylate,
urethane acrylate, or combinations thereof;

wherein when the 3-layered co-extruded biaxial-oriented film is formed of polyester films, the first layer comprises polyethylene
terephthalate, glycol-modified polyethylene terephthalate, acid-modified polyethylene terephthalate, glycol-modified polycyclohexanedimethylene
terephthalate or combinations thereof, the second layer comprises poly(ethylene terephthalate), poly(propylene terephthalate),
polybutylene terephthalate, polyethylene naphthalate or combinations thereof, and the third layer comprises polyethylene terephthalate,
glycol-modified polyethylene terephthalate, acid-modified polyethylene terephthalate, glycol-modified polycyclohexanedimethylene
terephthalate or combinations thereof, and the first layer further comprises an anti-block agent, wherein the third layer
has a lower viscosity than the second layer,

wherein when the 3-layered co-extruded biaxial-oriented film is formed of polypropylene films, the first layer comprises polypropylene,
ethylene-propylene copolymer, ethylene-propylene-butylene copolymer or combinations thereof, the second layer comprises polypropylene,
ethylene-propylene copolymer or combinations thereof, and the third layer comprises polypropylene, ethylene-propylene copolymer,
ethylene-propylene-butylene copolymer or combinations thereof, and the first layer further comprises an anti-block agent,
wherein the third layer has a lower viscosity than the second layer;

wherein the first layer has a thickness of between about 1 ?m and about 5 ?m, the second layer has a thickness of between
about 13 ?m and about 240 ?m, and the third layer has a thickness of between about 1 ?m and about 5 ?m.

US Pat. No. 9,131,468

METHOD OF HANDLING RESOURCE ALLOCATION FOR MTC AND RELATED COMMUNICATION DEVICE

Industrial Technology Res...

1. A method of performing a random access (RA) procedure for a communication device in a wireless communication system, the
method comprising:
receiving first system information transmitted in a first subband resource of at least one subband resource by a network of
the wireless communication system when performing a cell search procedure;

receiving second system information transmitted in a second subband resource of the at least one subband resource according
to the first system information, after performing the cell search procedure; and

performing the RA procedure by using the second subband resource of the at least one subband resource according to at least
one of the first system information and the second system information.

US Pat. No. 9,603,287

INTEGRATED POWER MODULE

INDUSTRIAL TECHNOLOGY RES...

1. An integrated power module, comprising:
a gate driver circuit;
a plurality of first metal plates, electrically coupled to the gate driver circuit; the first metal plates being parallel
to each other/one another, and at least one of the first metal plates comprising a plurality of chip slots;

a plurality of chips, disposed at the chip slots, and each of the chips electrically coupled to adjacent one of the first
metal plates;

a plurality of second metal plates, electrically coupled to the gate driver circuit; the second metal plates being parallel
to each other/one another, and each of the second metal plates disposed between any adjacent two of the first metal plates;
and

an annual frame, accommodating the first metal plates, the second metal plates, the gate driver circuit, and the chips.

US Pat. No. 9,051,170

MICROELECTROMECHANICAL SYSTEM DEVICE WITH ELECTRICAL INTERCONNECTIONS AND METHOD FOR FABRICATING THE SAME

Industrial Technology Res...

1. A microelectromechanical system device with electrical interconnections comprising:
a mass including:
an insulation layer of mass dividing the mass into a base conductive layer and a target conductive layer;
a trench of mass disposed in the target conductive layer, the trench of mass passing through the target conductive layer to
the insulation layer of mass and dividing the target conductive layer into a first conductive portion and a second conductive
portion which are insulated electrically from each other;

a conductive through hole of mass passing through the insulation layer of mass and connecting the base conductive layer and
the first conductive portion; and

a substrate including:
at least one electrode disposed on an upper surface of the substrate;
wherein, in a working status, an electrical current flows through the base conductive layer, the conductive through hole of
mass and the first conductive portion and an electrical potential difference exists between the second conductive portion
and the electrode.

US Pat. No. 9,456,536

METHOD FOR PINS DETECTION AND INSERTION OF ELECTRONIC COMPONENT

INDUSTRIAL TECHNOLOGY RES...

1. A method for pins detection and insertion of an electronic component, comprising:
picking an electronic component having a plurality of pins by a pick and place device;
acquiring a plurality of serial images with respect to the plurality of pins at different height along an image acquiring
direction by an image acquiring device;

separately detecting image positions corresponding to the pins in the plurality of serial images;
determining a position state according to the image positions of each pin, so at to determine whether the electronic component
is qualified; and

if the electronic component is qualified, inserting the electronic component to a circuit board according to a position relationship
between image positions of the pins and a geometric center of the pick and place device;

wherein, detecting the image positions corresponding to the pins further comprises:
determining an interest region with respect to each pin in each serial image;
separately detecting a pin image with a largest area with respect to each pin in interest regions of the serial images;
performing edge contour detection on each pin image with a largest area; and
determining a shape of the edge contour.

US Pat. No. 9,256,306

SENSING APPARATUS AND DRIVING METHOD THEREOF

Industrial Technology Res...

1. A sensing apparatus, comprising:
a first scan line;
a second scan line;
a readout line;
a first sensing device, coupled to the first scan line and the readout line, and configured for sensing a first energy, wherein
the first sensing device outputs a first readout signal corresponding to the first energy to the readout line in response
to a first scan signal on the first scan line, and the first sensing device is reset in response to the first scan signal
and a reference signal provided by an external interpretation unit on the readout line, wherein the first sensing device comprises:

a first reset unit, configured for resetting the first sensing device, wherein a first terminal of the first reset unit is
coupled to the first scan line, and a control terminal of the first reset unit is coupled to the readout line;

a first sensing unit, configured for sensing the first energy, and converting the sensed first energy to a first data signal;
a first storage unit, coupled to the first scan line and the first sensing unit, and configured for storing the first data
signal, wherein one terminal of the first storage unit is coupled to the first scan line, and another terminal of the first
storage unit is coupled to a second terminal of the first reset unit,

wherein the sensing apparatus further comprising:
a second sensing device, coupled to a second scan line and the readout line, and configured for sensing a second energy, wherein
the second sensing device outputs a second readout signal corresponding to the second energy to the readout line in response
to a second scan signal on the second scan line, and the first scan signal and the second scan signal enable the first sensing
device and the second sensing device in sequence,

wherein when the reference signal provided by the external interpretation unit on the readout line is in a high voltage level,
the first scan signal on the first scan line enables the first terminal of the first reset unit to be conducted with the second
terminal, and the first scan signal is at a low voltage such that the terminal and the other terminal of the first storage
unit are both in a low voltage level, so as to reset the first storage unit.

US Pat. No. 9,426,783

METHODS, APPARATUSES, AND SYSTEMS FOR RESOURCE ALLOCATION FOR TERMINALS

Industrial Technology Res...

1. A method comprising:
determining, by a terminal, a data stream is to be transported over a radio bearer in an aggregated data stream;
determining if the data stream is a first data stream to be transported over the radio bearer;
in an instance where the data stream is the first data stream, sending a signaling message at least comprising a periodicity
of the first data stream and a packet size to a network node;

in an instance where the data stream is an additional data stream to be transported over the radio bearer, sending the signaling
message at least comprising a periodicity of the additional data stream, an offset from the first data stream, and a packet
size to the network node;

receiving a persistent/semi-persistent scheduled grant for data message from the network node if the network node determines
that persistent/semi-persistent scheduling is beneficial, otherwise the network node may choose dynamic scheduling, wherein
the network node determines that persistent/semi-persistent scheduling is beneficial based at least in part on a control channel
load associated with the data stream being determined to exceed a predetermined threshold; and

sending the aggregated data stream to the network node.

US Pat. No. 9,282,645

LASER PATTERNING OF FRAME WIRE AREA ON TOUCH PANEL

Industrial Technology Res...

1. A laser-patterned touch panel, comprising:
an active area, configured at a center of the touch panel;
an inactive area, wherein the inactive area is not overlapped with the active area, and a transparent conductive layer is
disposed on the inactive area;

a plurality of first coaxial patterns formed in the transparent conductive layer and surrounding the active area, wherein
each pattern of the first coaxial patterns comprises a continuous line segment with a first width and partially overlaps with
a neighboring one of the first coaxial patterns, and the first coaxial patterns are arranged to form a first insulation area;
and

a patterned conductive metal layer disposed on the first coaxial patterns forming the first insulation area.

US Pat. No. 9,135,411

DIGITAL RIGHTS MANAGEMENT APPARATUS AND METHOD

INDUSTRIAL TECHNOLOGY RES...

1. A digital rights management apparatus comprising:
a memory, a processor coupled to the memory configured to execute programmed instructions stored in the memory comprising:
generating M content objects according to a digital content and to output M digital rights management objects according to
the M content objects, a key datum, and a rights datum, at least segmenting the digital content to generate the M content
objects, each of the M content objects comprising a segment of the digital content and at least packing the M content objects
with the key datum and the rights datum to output the M digital rights management objects, each of the M digital right management
objects comprising a generated M content object, the key datum, and the rights datum;

selecting corresponding N digital rights management objects from the M digital rights management objects according to request
information from a client, wherein N is less than a request upper limit value and the request upper limit value is a maximum
quantity of content objects that is allowable for the client to request once, wherein M and N are positive integers and N
is less than M;

obtaining index information, to transmit N content objects to the client according to a tracking record, the index information,
a default control rule, and the rights datum, and recording the index information, after the transmission of the N content
objects, into the tracking record;

storing the M digital rights management objects by a digital rights management object database; and
storing the tracking record by a tracking record unit.

US Pat. No. 9,226,725

PHYSIOLOGICAL SIGNALS SENSING STRUCTURE, STETHOSCOPE THEREWITH AND MANUFACTURING METHOD THEREOF

Industrial Technology Res...

1. A physiological signal sensing structure, comprising:
a flexible substrate;
a piezoelectric sensing structure, disposed over the flexible substrate, wherein the piezoelectric sensing structure at least
comprises a curved surface area and an edge area, the piezoelectric sensing structure comprises a first surface and a second
surface, the second surface faces the flexible substrate, and the piezoelectric sensing structure has an arc with a curvature,
and the first surface of the piezoelectric sensing structure faces outward; and

a damping structure, disposed between the flexible substrate and the piezoelectric sensing structure.

US Pat. No. 9,313,076

ANTENNA MODULATION METHOD APPLICABLE TO WIRELESS TRANSMITTER AND TRANSMITTER USING THE SAME

Industrial Technology Res...

1. An data modulation method applicable to a transmitter comprising a plurality of antennas and a processing unit which is
configured to execute functions comprising:
receiving a data segment represented by a bit stream;
converting the bit stream into a multi-dimensional coordinate comprising a first dimension and a second dimension;
generating a first vector having a plurality of first elements according to the first dimension of the multi-dimensional coordinate,
wherein the number of the first elements and the number of the antennas are identical, the first elements comprises at least
a first entry and a second entry, and at least one of the first entry and the second entry of the first vector is set to a
first non-zero entry;

generating a second vector having a plurality of second elements according to the second dimension of the multi-dimensional
coordinate, wherein the number of the second elements and the number of the antennas are identical, the second elements comprises
at least a third entry and a forth entry, and at least one of the third entry and the forth entry of the second vector is
set to a second non-zero entry, wherein absolute phase difference between the first non-zero entry and the second non-zero
entry is greater than 0 degree;

generating a third vector having a plurality of third elements by summing the first vector and the second vector, wherein
the number of the third elements and the number of the antennas are identical, the third elements comprises at least a fifth
entry and a sixth entry, the fifth entry of the third vector map to the first antenna among the antennas, and the sixth entry
of the third vector map to the second antenna among the antennas; and

activating at least one of the first antenna and the second antennas and emitting waveforms according to one or more non-zero
entries of the third vector for transmitting the data segment during one signalling interval.

US Pat. No. 9,190,547

PHOTO-ELECTRIC DEVICE WITH INVERSE PYRAMID SHAPED RECESSES

Industrial Technology Res...

1. A photo-electric device, comprising:
a photoelectric conversion layer, comprising a plurality of inversed pyramid shaped recesses and a plurality of a pyramids,
wherein each of the inversed pyramid shaped recesses has at least three first reflection sidewalls, each of the pyramids is
located in one of the inversed pyramid shaped recesses respectively, each of the pyramids has at least three second reflection
sidewalls, and none of the first reflection sidewall and the second reflection sidewall is located in a same plane; and

a plurality of electrodes, electrically connected to the photoelectric conversion layer.

US Pat. No. 9,153,846

BATTERY PACK AND METHOD OF CONTROLLING CHARGE-AND-DISCHARGE OF BATTERY PACK BY ITS THERMOELECTRIC PROPERTY

Industrial Technology Res...

1. A battery pack, having a plurality of thermal regions divided by different ranges of temperature, comprising:
a plurality of parallel-connected battery groups, respectively located in the thermal regions, wherein each of the parallel-connected
battery groups is formed by a plurality of batteries connected in parallel;

a plurality of variable resistances, each disposed between two parallel-connected battery groups, and
a plurality of current control devices respectively connected to the parallel-connected battery groups to control a discharge
sequence of the parallel-connected battery groups,

wherein when an ambient temperature is lower than a set temperature, the parallel-connected battery group in a high-temperature
location of the thermal regions is controlled to discharge earlier than the parallel-connected battery group in a low-temperature
location, and

wherein a battery temperature in each of the thermal regions depends on a position, a heat-dissipation condition and a waste
heat transfer path of each parallel-connected battery group.

US Pat. No. 9,485,762

APPARATUSES FOR TRANSMITTING UPLINK CONTROL INFORMATION

Industrial Technology Res...

1. A communication device, comprising:
a receiving circuit configured to operably receive an uplink-downlink (UL-DL) reconfiguration message from a communication
station;

an uplink control information generating circuit configured to operably generate a plurality of uplink control information
(UCI);

a transmitting circuit configured to operably transmit the UCI in a plurality of data frames, wherein each of the data frames
comprises a plurality of subframes; and

a control circuit configured to operably determine the subframe of the data frame to be an uplink subframe, a downlink subframe
or a special subframe according to the UL-DL reconfiguration message;

wherein the UL-DL reconfiguration message configures the communication device to operate in one of a plurality of valid UL-DL
configurations; a first subframe of the subframes of the data frame is not configured to be the downlink subframe in the valid
UL-DL configurations; and the control circuit configures the transmitting circuit to transmit the UCI in the first subframes
of the data frames.

US Pat. No. 9,287,541

SINGLE FIBER LAYER STRUCTURE OF MICRON OR NANO FIBERS AND MULTI-LAYER STRUCTURE OF MICRON AND NANO FIBERS APPLIED IN SEPARATOR FOR BATTERY

INDUSTRIAL TECHNOLOGY RES...

1. A multi-layer structure of micron and nano fibers applied in a battery, comprising:
a web of micron fibers formed by a plurality of interweaved micron fibers whose diameter is greater than or equal to 1 ?m;
a web of nano fibers formed by a plurality of nano fibers interweaved on the web of micron fibers, wherein the plurality of
nano fibers have a diameter less than 1 ?m;

a mixture layer of fibers located between the web of nano fibers and the web of micron fibers, wherein the mixture layer of
fibers comprises parts of the plurality of interweaved nano and micron fibers; and

a resin at least impregnating the mixture layer of fibers and parts of the plurality of micron fibers of the web of micron
fibers.

US Pat. No. 9,154,886

CAPACITIVE TRANSDUCER MANUFACTURING METHOD, AND MULTI-FUNCTION DEVICE

Industrial Technology Res...

1. A capacitive transducer, comprising:
a substrate having an opening;
a first electrode disposed on a surface of the substrate;
at least one supporting beam structure disposed on the first electrode, wherein the supporting beam structure connects the
substrate and supports the first electrode;

a second electrode disposed on the supporting beam structure and opposite the surface of the substrate, wherein the second
electrode and the first electrode are separated by a spacing, the second electrode has a center portion opposite the opening
and an edge portion surrounding the center portion, the center portion of the second electrode is supported by the supporting
beam structure, and the center portion and the edge portion are discontinuous structures,

the first electrode suspends between the opening of the substrate and the second electrode through the supporting beam structure;
and

a first dielectric layer disposed between the supporting beam structure and the first electrode, wherein a bottom of the first
electrode is entirely exposed toward the opening without the first dielectric layer.

US Pat. No. 9,221,071

METHOD AND APPARATUS OF GROWING A THIN FILM

INDUSTRIAL TECHNOLOGY RES...

1. An apparatus of growing a thin film having AgInS2/AgIn5S8 solid mixtures or a thin film having AgIn5S8 structure on a plurality of substrates, comprising:
at least a reaction trough, configured for containing a reaction liquid, wherein the substrates are placed into the reaction
liquid such that the reaction liquid grows the thin film on the substrates;

an ultrasonic vibrator, configured for vibrating the reaction liquid by ultrasonic waves; and
a carrying unit, configured for carrying the substrates by a constant distance of separation between each of the substrates,
comprising:

a frame;
a plurality of adjustable lower separation plates, coupled to a lower end of the frame, and configured for fixing lower ends
of the substrates by the constant distance of separation between each of the substrates; and

a plurality of adjustable upper separation plates, coupled to an upper end of the frame, and configured for fixing upper ends
of the substrates by the constant distance of separation between each of the substrates;

wherein the lower separation plates and the upper separation plates are parallel with the substrates, and the carrying unit
adjusts the constant distance of separation between each of the substrates by moving the lower separation plates and the upper
separation plates along a direction perpendicular to primary coating surfaces of the substrates facing contact surfaces of
the upper and lower separation plates.

US Pat. No. 9,215,589

METHODS AND DEVICES FOR ESTABLISHING SECURITY ASSOCIATIONS AND PERFORMING HANDOFF AUTHENTICATION IN COMMUNICATIONS SYSTEMS

Industrial Technology Res...

13. A method of providing secure communications between a target base station, a first mobile relay station, and at least
one mobile station in a communication network, the method comprising:
transmitting, by the first mobile relay station, a signaling message to the target base station, the signaling message including
a message authentication code (MAC) corresponding to the at least one mobile station;

receiving, by the first mobile relay station, a responsive signaling message from the target base station;
receiving, by the first mobile relay station, at least one security key corresponding to the at least one mobile station from
the target base station, wherein the at least one security key was generated from a prior authentication of the at least one
mobile station using signals transmitted through one of a second mobile relay station, the target base station, or a second
base station from which the at least mobile station was handed off to the first mobile relay station; and

authenticating, by the first mobile relay station, the at least one mobile station by verifying the MAC using the at least
one security key generated from the prior authentication of the at least one mobile station.

US Pat. No. 9,112,239

METHOD FOR MODIFYING CATHODE MATERIAL AND LITHIUM BATTERY EMPLOYING THE CATHODE MATERIAL

INDUSTRIAL TECHNOLOGY RES...

1. A lithium battery, comprising
a cathode plate and an anode plate;
a separator disposed between the cathode plate and the anode plate to define a reservoir region;
an electrolyte filled in the reservoir region; and
a non-crosslinked thermal protective film encapsulating an electrode material powder of the cathode plate or the anode plate,
wherein the non-crosslinked thermal protective film is capable of undergoing a crosslinking reaction when a battery temperature
rises over an onset temperature, and the onset temperature is between about 80° C. and 280° C.

US Pat. No. 9,356,526

DC-DC POWER CONVERSION APPARATUS AND METHOD

Industrial Technology Res...

1. A direct current (DC)-DC power conversion apparatus, comprising:
a main transformer circuit;
an auxiliary transformer circuit;
a switching circuit, coupled to a primary winding of the main transformer circuit and a primary winding of the auxiliary transformer
circuit, wherein the switching circuit provides an input power to the primary winding of the main transformer circuit or the
primary winding of the auxiliary transformer circuit by time-division;

a main rectifier circuit, having an alternating current (AC) input terminal coupled to a secondary winding of the main transformer
circuit, wherein a power output terminal of the main rectifier circuit serves as a power output terminal of the DC-DC power
conversion apparatus; and

an auxiliary rectifier circuit, having an AC input terminal coupled to a secondary winding of the auxiliary transformer circuit,
wherein a power output terminal of the auxiliary rectifier circuit is coupled to a reference voltage terminal of the main
rectifier circuit for lifting a voltage of the power output terminal of the main rectifier circuit, and a reference voltage
terminal of the auxiliary rectifier circuit is coupled to a secondary side reference voltage,

wherein the main rectifier circuit comprises:
a rectifier, having an AC input terminal coupled to the secondary winding of the main transformer circuit;
a clamping circuit, coupled to a DC output terminal of the rectifier; and
an energy storage circuit, having an input terminal coupled to the DC output terminal of the rectifier, an output terminal
coupled to the power output terminal of the main rectifier circuit, and a reference terminal coupled to the reference voltage
terminal of the main rectifier circuit, wherein the energy storage circuit provides the output voltage to the power output
terminal of the main rectifier circuit according to a voltage at the reference voltage terminal of the main rectifier circuit.

US Pat. No. 9,236,169

ELECTROMAGNETIC WAVE SHIELDING STRUCTURE AND METHOD FOR FABRICATING THE SAME

INDUSTRIAL TECHNOLOGY RES...

1. An electromagnetic wave shielding structure, comprising:
a substrate;
a porous composite film formed on the substrate, wherein the porous composite film comprises a continuous phase network fused
from a plurality of metal nanoparticles, a first epoxy resin composition coated on a surface of the continuous phase network
and a plurality of holes which are void spaces between the continuous phase network coated with the first epoxy resin composition;
and

a conductive adhesive layer formed on the porous composite film, wherein the conductive adhesive layer comprises a conductive
powder.

US Pat. No. 9,046,681

ELECTRO-WETTING ELEMENT AND OPERATION METHOD THEREOF, ELECTRO-WETTING DISPLAY DEVICE

Industrial Technology Res...

1. An electro-wetting element, comprising:
a first substrate and a second substrate, wherein the first substrate and the second substrate are disposed oppositely;
a first electrode formed on the first substrate;
a photoreactive layer formed on the first electrode, wherein the photoreactive layer comprises a reversible photoreactive
material and a modifier;

a second electrode formed on the first substrate or the second substrate; and
a polar fluid and a non-polar fluid disposed between the first substrate and the second substrate.

US Pat. No. 9,281,451

LIGHT EMITTING ELEMENT AND FABRICATING METHOD THEREOF

Industrial Technology Res...

1. A light emitting element comprising:
a substrate having a plurality of first concaves and a plurality of second concaves, wherein a volume of each first concave
is different from a volume of each second concave, and a depth of each of the first concaves is different from a depth of
each of the second concaves;

a plurality of first light emitting diode chips, wherein a volume of each first light emitting diode chip is less than the
volume of each first concave, and the first light emitting diode chips are located within the first concaves; and

a plurality of second light emitting diode chips, wherein a volume of each second light emitting diode chip is less than the
volume of each second concave, and the second light emitting diode chips are located within the second concaves;

wherein the depth of each of the first concaves is greater than the depth of each of the second concaves, a thickness of each
of the first light emitting diode chips is greater than a thickness of each of the second light emitting diode chips, and
the thickness of each of the first light emitting diode chips is greater than the depth of each of the second concaves.

US Pat. No. 9,359,475

AQUEOUS-PHASE CATALYST COMPOSITIONS AND METHOD FOR PREPARING POLYPHENYLENE ETHER

INDUSTRIAL TECHNOLOGY RES...

1. An aqueous-phase catalyst composition, comprising:
a metal ion comprising copper, nickel, manganese or iron; and
a water-soluble linear polymer having a molecular weight ranging from 1,000 to 20,000, wherein the metal ion and the water-soluble
linear polymer have a weight ratio of 1:1 to 1:5.

US Pat. No. 9,311,652

METHOD, APPARATUS AND SYSTEM FOR GENERATING AND VERIFYING COLOR BARCODE

Industrial Technology Res...

1. A method for verifying a color barcode, the method comprising:
reading direction information of a plurality of boundaries among a plurality of serially connected symbolic elements in a
color barcode certificate to retrieve first authentication information of a first party by an electronic apparatus, wherein
each of the symbolic elements is one of at least two polygons, and colors of adjacent symbolic elements of the symbolic elements
are different;

reading color information of the symbolic elements to retrieve second authentication information of a second party by the
electronic apparatus; and

verifying an identity of a holder of the color barcode certificate according to the first authentication information and the
second authentication information by the electronic apparatus.

US Pat. No. 9,238,576

COMPOSITE MICRO-ELECTRO-MECHANICAL-SYSTEM APPARATUS AND MANUFACTURING METHOD THEREOF

Industrial Technology Res...

1. A composite micro-electro-mechanical-system (MEMS) apparatus, comprising:
a vibrating unit oscillating along a first axis, wherein the vibrating unit comprises:
a stiffness element comprising a first surface, a second surface, and a third surface, wherein the first surface faces toward
a first direction of the first axis and the second surface faces toward a second direction of the first axis, wherein the
first direction is opposite to the second direction, and the third surface connects the first surface and the second surface;

a first material disposed on the first surface and the second surface of the stiffness element; and
a second material being a conductive material disposed on the first material and extending to the stiffness element, wherein
the second material is electrically connected to the stiffness element,

wherein, when a temperature changes, a variation direction of a Young's modulus of the first material is opposite to a variation
direction of a Young's modulus of the stiffness element.

US Pat. No. 9,140,839

LIGHTING MODULE AND OPTICAL FIBER LIGHTING DEVICE USING THE SAME

INDUSTRIAL TECHNOLOGY RES...

1. A lighting module, comprising:
a first light source for emitting a first exciting light;
a second light source for emitting a second exciting light; and
a phosphor element for converting the first exciting light and the second exciting light to an emission light,
wherein the first exciting light and the second exciting light are input to the phosphor element in different directions of
incidence;

wherein the phosphor element has a bottom surface and a top surface opposite to the bottom surface;
wherein the first exciting light is input to the phosphor element through the bottom surface, and the second exciting light
is input to the phosphor element through the top surface.

US Pat. No. 9,425,967

METHOD FOR CERTIFICATE GENERATION AND REVOCATION WITH PRIVACY PRESERVATION

Industrial Technology Res...

1. A method for certificate revocation with privacy preservation, adapted to a communication within a certificate authority
(CA), the method comprising:
determining that one or more certificates for an entity should be revoked;
determining a minimum key node set of a key tree that covers the one or more certificates to be revoked;
adding the minimum key node set to a certificate revocation list by at least adding at least a node index and a derived secret
key corresponding to the node index to the certificate revocation list, the derived secret key being different from any of
the one or more certificates and the node index defining at least one function to apply to the derived secret key to identify
the one or more certificates to be revoked; and

causing sending of the certificate revocation list to one or more entities.

US Pat. No. 9,385,056

PACKAGING SUBSTRATE HAVING EMBEDDED INTERPOSER AND FABRICATION METHOD THEREOF

Unimicron Technology Corp...

1. A fabrication method of a packaging substrate having an embedded interposer, comprising the steps of:
preparing a multi-layer interconnect base plate having opposite third and fourth surfaces, wherein the third surface has a
plurality of first conductive terminals disposed thereon;

forming a built-up structure on the third surface of the multi-layer interconnect base plate;
removing a portion of the built-up structure through a laser so as to form a cavity and expose the plurality of first conductive
terminals from the cavity, thereby providing a carrier having opposite top and bottom surfaces, wherein the carrier comprises
the multi-layer interconnect base plate and the built-up structure having a recess, the recess is formed on the top surface
of the carrier and the plurality of first conductive terminals are formed on the recess, and a plurality of second conductive
terminals are formed on the bottom surface of the carrier for electrically connecting the carrier and an external electronic
device; and

disposing in the recess an interposer having opposite first and second surfaces and a plurality of conductive through vias
penetrating the first and second surfaces, wherein a first conductive pad is formed on an end of each of the conductive through
vias exposed from the first surface, and a second conductive pad is formed on the other end of each of the conductive through
vias exposed from the second surface and electrically connected to a corresponding one of the first conductive terminals.

US Pat. No. 9,369,063

OUTPUT POWER ADJUSTING METHOD FOR INVERTER

INDUSTRIAL TECHNOLOGY RES...

1. An output power adjusting method applied to an inverter that comprises a capacitor, and comprising steps of:
at least converting direct current (DC) electricity of a photovoltaic (PV) module into alternating current (AC) electricity;
determining whether a power value of the AC electricity is larger than a power threshold;
when the power value of the AC electricity is larger than the power threshold, controlling the inverter to operate in a continuous
mode;

when the power value of the AC electricity is not larger than the power threshold, controlling the inverter to operate in
a discontinuous mode where the capacitor is charged by the DC electricity of the PV module;

determining whether a voltage on the capacitor is larger than a reference voltage in the discontinuous mode;
when the voltage on the capacitor is larger than the reference voltage in the discontinuous mode, converting the DC electricity
of the PV module and DC electricity in pulses of the capacitor into the AC electricity;

when the power value of the AC electricity is not larger than the power threshold, determining whether the AC electricity
and mains electricity are synchronous; and

stopping outputting the AC electricity at a zero crossing point of the mains electricity.

US Pat. No. 9,246,361

SEGMENTED MAGNETO-CONDUCTIVE STRUCTURE APPLIED IN ROTATING MACHINES

INDUSTRIAL TECHNOLOGY RES...

1. A segmented magneto-conductive structure applied in rotating machines, comprising:
a rotor assembly, comprising:
a rotor yoke component made of non-oriented silicon steel; and
a plurality of rotor teeth components made of grain-oriented silicon steel, the rotor teeth components surrounding the rotor
yoke component, and extending in a radial direction of the rotor yoke component; and

a stator assembly, comprising:
a plurality of stator yoke components made of grain-oriented silicon steel, the stator yoke components being disposed around
the rotor assembly in a rotational direction of the rotor yoke component, wherein each of the stator yoke components includes
a plurality of stacked grain-oriented silicon steel sheets, and an included angle between a calendaring direction of each
of the grain-oriented silicon steel sheets and a long side of the stator yoke component extended in the rotational direction
is smaller than or equal to 15 degrees; and

a plurality of stator teeth components made of grain-oriented silicon steel, each of the stator teeth components being disposed
between two of the adjacent stator yoke components respectively and being disposed around the rotor assembly, and the stator
teeth components extending toward the rotor assembly in the radial direction, and being corresponding to the rotor teeth components.

US Pat. No. 9,147,021

DATA PROCESSING METHOD AND DEVICE USING THE SAME

INDUSTRIAL TECHNOLOGY RES...

1. A computer implemented data processing method applied in a data processing system for achieving iterative approximation
of a target matrix, comprising:
determining whether the target matrix corresponds to a low complexity condition by a determining unit of a data processing
device;

when the target matrix corresponds to the low complexity condition, driving an iteration unit with fixed-value parameters
of the data processing device by the determining unit for obtaining a first updated target matrix according to a first variance
and a first iteration parameter, wherein the first variance is relevant to a second iteration parameter, and the first and
the second iteration parameters correspond to fixed values; and

when the target matrix does not correspond to the low complexity condition, driving an iteration unit with unfixed-value parameters
of the data processing device by the determining unit for obtaining a second updated target matrix according to a second variance
and a third iteration parameter, wherein the second variance is relevant to a fourth iteration parameter, and the third and
the fourth parameters are related to the target matrix.

US Pat. No. 9,353,929

BEAM DIFFUSING MODULE AND BEAM GENERATING SYSTEM

Industrial Technology Res...

1. A beam diffusing module, adapted to change an M squared of a laser beam along a first direction, the beam diffusing module
comprising:
a light incident terminal;
a light emitting terminal, wherein the laser beam sequentially passes through the light incident terminal and the light emitting
terminal;

a first reflective plate, having a first reflective surface, the first reflective plate being disposed on a transmission path
of the laser beam and extending from the light incident terminal to the light emitting terminal; and

a second reflective plate, having a second reflective surface, the second reflective plate being disposed on the transmission
path of the laser beam and extending from the light incident terminal to the light emitting terminal, wherein the first reflective
surface and the second reflective surface are opposite to each other, at least one of the first reflective surface of the
first reflective plate and the second reflective surface of the second reflective plate has a plurality of reflective microstructures,
the reflective microstructures are arranged along a second direction from the light incident terminal towards the light emitting
terminal, at least a part of the laser beam enters the beam diffusing module through the light incident terminal and emerges
from the light emitting terminal to cause the M squared of the laser beam emitted from the beam diffusing module to be redistributed
along the first direction,

wherein the beam diffusing module complies with ?m<(N+M)K/2<180, wherein N is a divergence angle of the first reflective surface for the laser beam, M is a divergence angle
of the second reflective surface for the laser beam, K is a number of reflecting times of the laser beam reflected by the
first reflective surface and the second reflective surface, and ?m is an original divergence angle of the laser beam.

US Pat. No. 9,247,483

METHOD AND SYSTEM FOR DATA TRAFFIC OFFLOAD

Industrial Technology Res...

1. A method for data traffic offload, comprising:
creating a local tunnel between a first base station and a second base station according to a first record and/or a second
record, wherein the first base station and the second base station are located on a front-end network, and wherein the first
record comprises an identification code and a network address of a first user equipment as well as a network address of the
first base station, and wherein the second record comprises an identification code and a network address of a second user
equipment as well as a network address of the second base station; and

routing network packets transmitted from the first user equipment to the second user equipment and/or network packets transmitted
from the second user equipment to the first user equipment via the local tunnel, wherein the local tunnel refers to headers
originally used for routing the network packets between the first user equipment and the second user equipment that is configured
to be changed by the first base station and the second base station.

US Pat. No. 9,356,179

DISPLAY PANEL INTEGRATED WITH PHOTOELECTRIC DEVICE

Industrial Technology Res...

1. A display panel, comprising:
a substrate having a first surface and a second surface opposite to the first surface, the substrate comprising a first circuit
layer disposed over the first surface and a second circuit layer disposed over the second surface;

a meshed shielding pattern disposed on first surface of the substrate to define a plurality of pixel regions over the substrate;
a plurality of light-emitting devices disposed on the first surface of the substrate and electrically connected to the first
circuit layer, and at least one of the light-emitting devices being disposed in one of the pixel regions; and

a photoelectric device for converting light into electricity, the photoelectric device being disposed on the at least one
of the first surface and the second surface of the substrate and electrically connected to the second circuit layer.

US Pat. No. 9,510,459

ENVIRONMENTAL SENSITIVE ELECTRONIC DEVICE PACKAGE AND MANUFACTURING METHOD THEREOF

Industrial Technology Res...

1. An environmental sensitive electronic device package comprising:
a first substrate;
an environmental sensitive electronic device located on the first substrate;
a first adhesive located on the first substrate;
a side wall barrier structure located on the first adhesive and adhered to the first substrate through the first adhesive;
a second adhesive located on the side wall barrier structure; and a second substrate, the side wall barrier structure being
adhered to the second substrate through the second adhesive, wherein the side wall barrier structure, the first adhesive,
and the second adhesive are located between the first substrate and the second substrate, the side wall barrier and the first
substrate are spaced apart by the first adhesive, the side wall barrier and the second substrate are spaced apart by the second
adhesive, the first adhesive and the second adhesive are in contact with each other, and the first adhesive or the second
adhesive covers the side wall barrier structure and the environmental sensitive electronic device;

wherein the side wall barrier structure surrounds the environmental sensitive electronic device.

US Pat. No. 9,343,651

ORGANIC PACKAGING CARRIER

Industrial Technology Res...

1. An organic packaging carrier, comprising:
an organic substrate having a first surface;
a conductive circuit layer, located on the first surface and comprising at least a conductive layer and a sealing ring, wherein
the sealing ring is a closed ring, wherein a portion of the first surface is exposed by the conductive circuit layer; and

a sealing metal layer, located on the sealing ring, wherein a material of the sealing metal layer includes AgSn and is lead-free;
an inorganic hermetic insulation film, disposed on the substrate, the conductive layer and the sealing ring, wherein the inorganic
hermetic insulation film completely covers and directly contacts the exposed first surface to achieve an effect of hermetically
sealing the organic packaging carrier, and the inorganic hermetic insulation film extendedly covers edges of the conductive
layer and edges of the sealing ring; and

a metal reinforcement layer, located on a surface of the inorganic hermetic insulation film to improve toughness of the inorganic
hermetic insulation film and to block moisture,

wherein the metal reinforcement layer and the sealing metal layer are electrically isolated from one another.

US Pat. No. 9,210,754

LIGHT DEVICES

INDUSTRIAL TECHNOLOGY RES...

16. A light device, comprising:
a plurality of first light cells, arranged in axisymmetric around an axis;
a plurality of second light cells, arranged in axisymmetric around the axis;
a power supply, providing a driving voltage;
a first switch, connected between the first light cells and the power supply;
a second switch, connected between the second light cells and the power supply, wherein the first switch and the second switch
are driving signal latch units; and

a controller, determining whether to activate the first light cells and second light cells according to a brightness adjust
value,

wherein an average distance between the first light cells and the axis is shorter than an average distance between the second
light cells and the axis.

US Pat. No. 9,468,095

MANUFACTURING METHOD OF MULTILAYER WIRING AND MULTILAYER WIRING STRUCTURE

Industrial Technology Res...

1. A manufacturing method of multilayer wiring, the manufacturing method comprising:
providing a substrate;
forming a wiring layer on the substrate, comprising:
forming a patterned colloidal layer on the substrate, wherein the patterned colloidal layer comprises 60-90 wt % of a polymer
material and 10-40 wt % of a first catalyzer;

activating the first catalyzer; and
reacting the activated first catalyzer with a chemical plating solution for forming a conductive layer on a surface of the
patterned colloidal layer; and

forming a conductive via, comprising:
forming an insulation colloidal layer on the substrate and the conductive layer, the insulation colloidal layer comprising
an insulation colloid and a second catalyzer, the second catalyzer accounting for 0.1-10 wt % of the insulation colloidal
layer;

forming at least one opening in the insulation colloidal layer by laser to expose the conductive layer and activate a portion
of the second catalyzer; and

performing an electroless plating process on the activated second catalyzer, so as to form the conductive via in the at least
one opening.

US Pat. No. 9,098,147

RANGING APPARATUS, RANGING METHOD, AND INTERACTIVE DISPLAY SYSTEM

Industrial Technology Res...

23. A ranging method, comprising: forming an image of an object by an image lens; the image having a plurality of image parameters
by the image lens, wherein the image parameters change with a change of an object distance of the object; and determining
the change of the object distance according to different changes of the image parameters in different directions, wherein
the image parameters comprise a plurality of image blur metrics in different directions, a modulation transfer function, a
concentration of energy distribution of a point spread function, or a combination thereof, the image blur metrics in different
directions changing differently with the change of the object distance; and wherein a ratio of axial chromatic aberration
of the imaging lens to a focal length of the imaging lens falls within a range of 0.0010 to 0.0100 or a range of ?0.0010 to
?0.0100, when the axial chromatic aberration being measured is of a 640 nm red light and a 550 nm green light corresponding
to the image parameters.

US Pat. No. 9,477,258

CLOCK TREE IN CIRCUIT HAVING A POWER-MODE CONTROL CIRCUIT TO DETERMINE A FIRST DELAY TIME AND A SECOND DELAY TIME

Industrial Technology Res...

1. A clock tree in a circuit, comprising:
a first sub clock tree, disposed in a first function module of the circuit to transfer a first delayed clock to different
components in the first function module;

a second sub clock tree, disposed in a second function module of the circuit to transfer a second delayed clock to different
components in the second function module;

at least one first channel power-mode-aware buffer connected in series between the first sub clock tree and a system clock
to delay the system clock for a first delay time to serve as the first delayed clock for providing to the first sub clock
tree;

at least one second channel power-mode-aware buffer connected in series between the second sub clock tree and the system clock
to delay the system clock for a second delay time to serve as the second delayed clock for providing to the second sub clock
tree; and

a power-mode control circuit, coupled to the at least one first channel power-mode-aware buffer, the at least one second channel
power-mode-aware buffer, the first function module and the second function module, the power-mode control circuit determining
power modes of the first function module and the second function module through at least two first power information, and
the power-mode control circuit providing at least two second power information to the at least one first channel power-mode-aware
buffer and the at least one second channel power-mode-aware buffer to determine the first delay time and the second delay
time.

US Pat. No. 9,257,904

DIRECT CURRENT CONVERSION CIRCUIT

INDUSTRIAL TECHNOLOGY RES...

1. A direct current (DC) conversion circuit, adapted to drive a load which comprises a light emitting diode or an organic
solid-state lighting, and comprising:
a buck-boost converter having two input ends, a negative output end and a positive output end, the two input ends being used
for receiving a first DC signal, and the negative and positive output ends being used for outputting a second DC signal;

a resonant stage circuit having two input ends and two output ends, used for receiving the second DC signal by the two input
ends of the resonant stage circuit, converting the second DC signal to energy, and outputting the energy by the two output
ends of the resonant stage circuit, and further used for converting the energy to a negative voltage by a resonance effect
and outputting the energy by the two output ends of the resonant stage circuit, wherein the resonant stage circuit comprises:

a first diode having an anode end and a cathode end, the cathode end of the first diode being coupled to the positive output
end of the buck-boost converter and one of the two input ends of the resonant stage circuit, and the anode end of the first
diode being coupled to the negative output end of the buck-boost converter, the other one of the two input ends of the resonant
stage circuit, and one of the two output ends of the resonant stage circuit; and

a resonant tank having a first inductor and a first capacitor coupled in parallel, wherein the resonant tank is coupled between
the cathode of the first diode and the other one of the two output ends of the resonant stage circuit; and

an output stage circuit, having two input ends and two output ends, used for receiving the energy by the two input ends of
the output stage circuit to store the energy and perform power charging, in order to output the energy to the load by the
two output ends of the output stage circuit.

US Pat. No. 9,194,425

DEVICE OF THE AXIAL-DIRECTIONAL OIL CHAMBER OF HYDROSTATIC SPINDLE

INDUSTRIAL TECHNOLOGY RES...

1. A device of an axial-directional oil chamber of a hydrostatic spindle, applicable to an axial bearing oil chamber structure
of a hydrostatic spindle module, comprising:
an axial-directional oil seal edge of an oil chamber; and
a radial-directional oil seal edge of the oil chamber;
wherein the axial-directional oil seal edge and the radial-directional oil seal edge are extended to seal the oil chamber.

US Pat. No. 9,279,820

METHOD FOR MANIPULATING DROPLET

INDUSTRIAL TECHNOLOGY RES...

1. A method for manipulating a droplet, comprising:
providing a droplet manipulating device, wherein the droplet manipulating device comprises a flow channel, a first magnetic
field generator, and a second magnetic field generator, the first magnetic field generator comprises two first magnetic field
modules opposite to each other, the two first magnetic field modules are at two opposite sides of the flow channel, the second
magnetic field generator is between the two first magnetic field modules, and the second magnetic field generator comprises
a plurality of second magnetic field coils;

providing a droplet in the flow channel, the droplet comprising at least one magnetic particle;
producing a first magnetic field on the flow channel by the two first magnetic field modules, so that the at least one magnetic
particle in the droplet has a direction of magnetic field corresponding to the first magnetic field; and

producing a second magnetic field on the flow channel by the plurality of second magnetic field coils, for driving the at
least one magnetic particle in the droplet to be in motion in the flow channel.

US Pat. No. 9,230,604

VIDEO INDEXING METHOD, VIDEO INDEXING APPARATUS AND COMPUTER READABLE MEDIUM

INDUSTRIAL TECHNOLOGY RES...

1. A video indexing method, comprising:
generating a frame movement analysis graphics according to a plurality of analysis points corresponding to a plurality of
video frames of a video record;

calculating a plurality of frame movement velocities corresponding to the video frames according to the frame movement analysis
graphics; and

constructing an indexing graphics of the video record according to the frame movement velocities, wherein the indexing graphics
comprises a street view or an indoor landscape,

wherein the generation step comprises:
capturing line information of the video frames;
determining analysis points according to the line information of the video frames;
selecting a plurality of image regions above the analysis points from the video frames and performing vertical averaging on
the selected image regions to generate a plurality of horizontal stripe images; and

stacking the horizontal stripe images to generate the frame movement analysis graphics according to sequence of frame time.

US Pat. No. 9,142,953

ELECTROSTATIC DISCHARGE PROTECTION APPARATUS AND ASSOCIATED METHOD

INDUSTRIAL TECHNOLOGY RES...

1. An electrostatic discharge (ESD) protection apparatus, comprising:
a clamp circuit, coupled between a first rail line and a second rail line, the first and second rail lines respectively having
a first reference voltage and a second reference voltage; and

a detection circuit, comprising:
a first node;
an electronic element, coupled between the first node and the second rail line, having an equivalent capacitance value; and
a transistor, coupled to the first node;
wherein, in response to an ESD event triggered between the first and second rail lines, a plurality of leakage currents correspondingly
pass between a first input and a gate and between a second input and the gate of the transistor, and respectively in equivalence
form a first parasitic resistance and a second parasitic resistance between the first input and the gate and between the second
input and the gate; the first parasitic resistance and the second parasitic resistance and the electronic element form a delay
circuit to provide a drive voltage between the gate and the first input for conducting the transistor, and to provide a trigger
current for conducting the clamp circuit, so that the first and second rail lines perform an ESD operation via the clamp circuit,
and the detection circuit further comprises:

a second node and a third node, respectively coupled to the second input and a drive terminal of the clamp circuit; and
a level limiting circuit, coupled between the second and third nodes, for determining a conducting voltage, disconnecting
the second input from the drive terminal when a cross voltage between the second input and the drive terminal is lower than
the conducting voltage, and connecting the second input to the drive terminal when the cross voltage is greater than the conducting
voltage, wherein the conducting voltage is associated with a supply voltage.

US Pat. No. 9,257,322

METHOD FOR MANUFACTURING THROUGH SUBSTRATE VIA (TSV), STRUCTURE AND CONTROL METHOD OF TSV CAPACITANCE

Industrial Technology Res...

1. A method for manufacturing a through substrate via (TSV), comprising:
providing a substrate having a first surface and a second surface;
forming a trench in the first surface of the substrate;
filling a low resistance material into the trench;
forming an insulating layer on the first surface of the substrate;
forming at least one opening in the first surface of the substrate, wherein a location of the at least one opening is different
from a location of the trench;

forming an oxide liner layer, a barrier layer and a conductive seed layer on a sidewall and a bottom of the at least one opening
and on the insulating layer above the first surface;

filling a conductive material into the at least one opening, wherein the at least one opening is used to form at least one
via; and

after filling the conductive material into the at least one opening, forming a body contact hole on the first surface of the
substrate, wherein a location of the body contact hole is the same as the location of the trench.

US Pat. No. 9,250,633

AIR CONDITIONING CONTROL DEVICE AND METHOD THEREOF

Industrial Technology Res...

1. An air conditioning control method for an air conditioning control device, the air conditioning control method comprising:
generating a plurality of predetermined state information corresponding to a target comfort index according to environment
states outside a physical space;

generating a current state information according to environment states within the physical space, wherein the current state
information includes a first temperature data, a first humidity data and a first carbon dioxide concentration data;

utilizing the current state information and the plurality of predetermined state information to calculate a plurality of energy
consumptions required by the conversion of states and selecting a target state information from the plurality of predetermined
state information according to a minimum energy consumption, when the current state information is different from the plurality
of predetermined state information, wherein the step of utilizing the current state information and the plurality of predetermined
state information to calculate the plurality of energy consumptions required by the conversion of states comprises:

selecting one of the plurality of predetermined state information, wherein the selected predetermined state information includes
a second temperature data, a second humidity data and a second carbon dioxide concentration data;

calculating a first energy for adjusting a temperature of the physical space from the first temperature data to the second
temperature data;

calculating a second energy for adjusting a humidity of the physical space from the first humidity data to the second humidity
data;

calculating a third energy for adjusting a carbon dioxide concentration of the physical space from the first carbon dioxide
concentration data to the second carbon dioxide concentration data; and

calculating the energy consumption corresponding to the selected predetermined state information according to the first energy,
the second energy and the third energy;

utilizing the current state information and the target state information to generate a current effective temperature value
and a target effective temperature value;

extracting a set temperature value and a return-air temperature value from an air conditioning controller in the air conditioning
control device, wherein the air conditioning controller obtains the return-air temperature value through a sensor disposed
on a return-air vent of the air conditioning control device;

utilizing the current effective temperature value, the target effective temperature value, the set temperature value and the
return-air temperature value to execute fuzzy inference, so as to generate a temperature fine-tuning value; and

utilizing the temperature fine-tuning value to adjust the set temperature value.

US Pat. No. 9,807,914

POWER MODULE

Industrial Technology Res...

1. A power module, comprising:
a plurality of substrates, located on different planes and surrounding an axis, wherein each of the substrates extends along
the axis;

a plurality of power devices, disposed on the substrates respectively and electrically connected with each other; and
a heat dissipation assembly, disposed on the substrates and opposite to the power devices, wherein heat generated from the
power devices is transferred to the heat dissipation assembly through the substrates, and the heat dissipation assembly comprises:

a main channel, located on and extending along the axis, wherein the main channel has an inlet and an outlet;
a plurality of first branch channels, directly connected to the inlet or the outlet of the main channel; and
a plurality of second branch channels, respectively formed on one side of the substrates opposite to the power devices and
connected between the inlet and the outlet of the main channel through the first branch channels, wherein each of the first
branch channels has one end connected to the main channel and another end connected to an end of the one of the second branch
channels.

US Pat. No. 9,287,817

CONTROL SYSTEM

INDUSTRIAL TECHNOLOGY RES...

1. A control system, for receiving an input signal and a feedback signal and generating an output signal, comprising:
a first operational element, for receiving the input signal and the feedback proportion signal to generate a first operation
signal;

a feedback proportion controller, for receiving the feedback signal, and selectively generating the feedback proportion signal
according to a first feedback gain or a second feedback gain;

an integrator, for receiving the first operation signal and generating an integral signal;
a feedforward proportion controller, for receiving the input signal, and selectively generating a feedforward proportion signal
according to a first feedforward gain or a second feedforward gain;

a second operational element, for receiving the feedforward proportion signal, the feedback proportion signal, and the integral
signal, and generating the output signal different from the feedback signal; and

a first multiplexer and a second multiplexer, wherein the first multiplexer selectively outputs the first feedback gain or
the second feedback gain to the feedback proportion controller according to a first switching signal, and the second multiplexer
selectively outputs the first feedforward gain or the second feedforward gain to the feedforward proportion controller according
to a second switching signal;

wherein the first feedback gain, the second feedback gain, the first feedforward gain and the second feedforward gain are
set based on a control method selected from the group consisting of PI (Proportional Integral) type, PID (Proportional Integral
Derivative) type, PDFF (Pseudo-Derivative Feedforward) type, PDF (Pseudo-Derivative Feedback) type or P (Proportional) type
control methods.

US Pat. No. 9,231,168

LIGHT EMITTING DIODE PACKAGE STRUCTURE

Industrial Technology Res...

1. A light-emitting diode package structure, comprising:
a package having a chip carrier portion;
a light-emitting diode chip disposed on the chip carrier portion of the package; and
a package material disposed on the chip carrier portion and covering the light-emitting diode chip, wherein the package material
comprises:

a matrix material;
a plurality of first powder particles distributed in the matrix material, wherein each first powder particle is a wavelength
conversion material; and

a plurality of second powder particles distributed in the matrix material, wherein each second powder particle comprises a
shell, and at least one of the first powder particles is bonded to at least one of the second powder particles to form a composite
particle.

US Pat. No. 9,178,164

ORGANIC COMPOUND AND ORGANIC ELECTROLUMINESCENT DEVICE EMPLOYING THE SAME

INDUSTRIAL TECHNOLOGY RES...

1. An organic compound having a Formula (I), of:

Formula (I)
wherein R1 are independently a hydrogen, or C1-8 alkyl; and R2 is a hydrogen, hydroxyl, or C1-8 alkoxy.

US Pat. No. 9,445,446

METHOD AND APPARATUS FOR DEVICE TO DEVICE COMMUNICATION

Industrial Technology Res...

1. A device to device (D2D) communication method, adapted for a caller user equipment (UE), and the method comprising:
transmitting to a first device a Msg1 comprising a request for a direct communication with the first device, wherein the Msg1
is a random access preamble;

receiving from the first device a Msg2 comprising a first decision to either accept or reject the request for the direct communication
with the first device, wherein the Msg2 is a random access response;

transmitting to a second device a Msg3 comprising the request for the direct communication with the first device when the
first decision is to accept, wherein the Msg3 is a radio resource control (RRC) Connection Request;

receiving from the second device a Msg4 comprising a second decision to either accept or reject the direction communication
between the caller UE and the first device; and

establishing the direct communication with the first device when the request is accepted by the second device,
wherein the step of receiving from the first device the Msg2 comprising the first decision to either accept or reject the
request for the direct communication with the first device further comprises:

receiving from the second device another Msg2 which includes resource allocation for the Msg3 and the Msg4,
wherein the caller UE and the first device synchronize with each other when the caller UE transmits the Msg1 to the first
device and then the caller UE receives the Msg2 from the first device, and the caller UE and the second device are synchronized
with each other when the caller UE transmits the Msg1 to the first device and then the caller UE receives the another Msg2
from the second device.

US Pat. No. 9,706,656

SIGNAL TRANSMISSION BOARD AND METHOD FOR MANUFACTURING THE SAME

INDUSTRIAL TECHNOLOGY RES...

1. A signal transmission board, comprising:
a substrate having a first external surface and a second external surface that are opposite to each other;
a cavity disposed in the substrate;
a conductive via having a first end and a second end that are opposite to each other, the conductive via penetrating through
the first external surface of the substrate, the cavity and the second external surface of the substrate in sequence, the
first end of the conductive via being disposed on the first external surface, and the second end of the conductive via being
disposed on the second external surface; and

a connecting hole having a third end and a fourth end that are opposite to each other, the connecting hole being disposed
on the substrate, the third end of the connecting hole being disposed on the first external surface, and the fourth end of
the connecting hole communicating with the cavity.

US Pat. No. 9,642,249

RESIN COMPOSITION, PREPREG, AND SUBSTRATE EMPLOYING THE SAME

INDUSTRIAL TECHNOLOGY RES...

1. A resin composition, comprising:
a polyphenylene ether compound; and
a bismaleimide compound, wherein the polyphenylene ether compound has a Formula (I), of:

wherein, X is

R is H, or C1-6 alkyl group;

Y is independently a moiety prepared by polymerizing at least two different phenols; and
Z is independently H, acryloyl group, allyl group, vinylbenzyl group, epoxypropyl group, methacryloyl group, propargyl group,
or cyanoallyl group.

US Pat. No. 9,655,244

FLEXIBLE ELECTRONIC DEVICE AND METHOD FOR MANUFACTURING THE SAME

INDUSTRIAL TECHNOLOGY RES...

1. A flexible electronic device, comprising:
a first flexible substrate having a first surface and a second surface which are opposite to each other;
a first electronic component disposed on the first surface of the first flexible substrate;
a second flexible substrate having a first surface and a second surface which are opposite to each other, and the first surface
of the second flexible substrate facing the first surface of the first flexible substrate;

a second electronic component disposed on the first surface of the second flexible substrate; and
an adhesive layer disposed between the first surface of the first flexible substrate and the first surface of the second flexible
substrate;

wherein the first surface of the first flexible substrate has a first flexible printed circuit (FPC) bonding area outside
the adhesive layer, an orthogonal projection of the first FPC bonding area projected on a plane where the second flexible
substrate is located does not overlap the second flexible substrate, the first surface of the second flexible substrate has
a second FPC bonding area outside the adhesive layer, and an orthogonal projection of the second FPC bonding area projected
on a plane where the first flexible substrate is located does not overlap the first flexible substrate.

US Pat. No. 9,157,849

CHANGED OPTICAL PATH MEASURING DEVICE FOR COMPONENT CONCENTRATION OF WATER AND MEASURING METHOD THEREOF

National Central Universi...

1. A measuring device, comprising:
a tank having a first and a second laterals including a first and a second virtual extensions respectively, for filling therein
a water wherein the first and the second laterals are light-permeable and oppositely configured, and the first and the second
virtual extensions intersect to form an angle;

a supporting portion having at least one supporting frame connected to the tank;
a vehicle having at least one moving device connected to the supporting portion for fixing the supporting portion and vertically
moving the supporting portion;

a first light source configured outside the tank and generating a first light toward to the first lateral; and
a first measuring element configured outside the tank and facing the second lateral for receiving the first light passing
sequentially through the first lateral, the water and the second lateral to measure the water.

US Pat. No. 9,253,890

PATTERNED CONDUCTIVE FILM, METHOD OF FABRICATING THE SAME, AND APPLICATION THEREOF

Industrial Technology Res...

1. A patterned conductive film, comprising:
a conductive interconnected nano-structure film including a first region and a second region adjacent to the first region,
wherein the first region has an interconnected nano-structure network and the second region has a partially discontinuous
interconnected nano-structure, and a conductivity of the first region is at least 1000 times a conductivity of the second
region; and

a patterned regulating layer disposed at one of the first region and the second region,
wherein the patterned regulating layer comprises an acrylic-based material, an epoxy-based material, a polyurethane-based
material, a polyvinyl-alcohol-based material, a polyester-based material, a polyethylene-based material, or a hybrid material
of more than two of the above, or an inorganic material including an aluminum oxide, a silicon oxide, a silicon nitride or
a mixture thereof.

US Pat. No. 9,309,501

ISOLATED DNA POLYMERASES, KITS AND APPLICATIONS THEREOF

Industrial Technology Res...

1. A mutant of an isolated DNA polymerase, consisting of the amino acid sequence of SEQ ID NO. 3.

US Pat. No. 9,795,028

PACKAGE STRUCTURE OF ELECTRONIC DEVICE

Industrial Technology Res...

1. A package structure of an electronic device, comprising:
a first substrate, comprising a first light-transmitting portion and a periphery portion surrounding the first light-transmitting
portion;

a second substrate, comprising a second light-transmitting portion, two covering portions located on two opposite sides of
the second light-transmitting portion and an extending portion, the first light-transmitting portion and the second light-transmitting
portion being disposed correspondingly, and a device disposition region being disposed therebetween, wherein the covering
portions cover the periphery portion of the first substrate located on two opposite sides of the first light-transmitting
portion and cover two opposite side surfaces of the first substrate, the extending portion is connected with the covering
portions and covers an outer surface of the first substrate, and the extending portion and the covering portions are integrally
formed;

an electronic device, disposed on the first substrate or the second substrate and located in the device disposition region;
and

a first barrier structure, disposed on the first substrate or the second substrate, wherein the first barrier structure is
disposed corresponding to the periphery portion and located on at least one side of the device disposition region.

US Pat. No. 9,197,444

MULTIPLE-INTERFACE NETWORK DEVICE AND SELECTION METHOD FOR TRANSMITTING NETWORK PACKETS

Industrial Technology Res...

1. A multiple-interface network device, comprising:
a plurality of network interfaces, each of the network interfaces connecting to one of a plurality of communication networks;
and

a processor coupled to the network interfaces, collecting a transmission status of each of the communication networks, analyzing
transmission characteristics of a predetermined number of packets of a service flow to determine a traffic pattern type of
the service flow, and comparing the transmission status of each of the communication networks with transmission requirements
of the traffic pattern type of the service flow to select one of the network interfaces, and using the selected network interface
to transmit packets of the service flow, wherein the service flow is constituted by packets transmitted by the network interfaces
through a port and packets received by the network interfaces through the port.

US Pat. No. 9,302,292

PIEZOELECTRIC ELECTROACOUSTIC TRANSDUCER

Industrial Technology Res...

1. A piezoelectric electroacoustic transducer, comprising:
a three-dimensional structure, including a top portion and a side portion integrally connected to the top portion, wherein
the side portion has at least a gap;

at least a piezoelectric element provided on the top portion; and
at least a membrane covering the at least a gap of the side portion.

US Pat. No. 9,229,510

POWER MANAGEMENT METHOD FOR ELECTRO-CHEMICAL BATTERIES IN LOW CAPACITY STATE

INDUSTRIAL TECHNOLOGY RES...

1. A power management method, applicable to electro-chemical batteries of an electronic device in a low capacity state of
a discharging process, the electronic device able to run a plurality of function threads, at least one electro-chemical battery
having a minimum battery capacity, comprising:
obtaining a plurality of battery information, the plurality of battery information comprising at least a maximum allowable
current and a maximum allowable power when the at least one electro-chemical battery a in the low capacity state;

updating a battery characteristic curve (BCC) by detecting changes in voltage versus current;
using the BCC curve to determine whether any function thread of a plurality of function threads are eligible for termination
and controlling to terminate or continue the plurality of function threads running on the electronic device; and

when reaching the minimum battery capacity and no function thread has been determined eligible for termination, turning off
the at least one electro-chemical battery; otherwise, returning to the step of obtaining the plurality of battery information.

US Pat. No. 9,251,778

METAL FOIL WITH MICROCRACKS, METHOD OF MANUFACTURING THE SAME, AND SOUND-ABSORBING STRUCTURE HAVING THE SAME

Industrial Technology Res...

1. A method of manufacturing a metal foil with microcracks, comprising:
placing a metal foil between a first material sheet and a second material sheet, wherein a ductility of each of the first
and second material sheets is higher than that of the metal foil;

rolling the first material sheet, the second material sheet, and the metal foil between the first and second material sheets;
and

removing the first material sheet and the second material sheet to obtain a metal foil having a plurality of microcracks.

US Pat. No. 9,375,153

MOTION/VIBRATION SENSOR

INDUSTRIAL TECHNOLOGY RES...

1. A motion/vibration sensor, including:
a transmit/receive antenna unit;
an oscillation unit, coupled to the transmit/receive antenna unit; and
a frequency-mixing unit coupled to the transmit/receive antenna unit and the oscillation unit;
wherein the transmit/receive antenna unit receives an output signal from the oscillation unit and transmits a detection signal
toward at least one object according to the output signal;

the detection signal is reflected by the object as a reflected detection signal and received by the transmit/receive antenna
unit;

the oscillation unit receives the reflected detection signal from the transmit/receive antenna unit for self-injection locking
and the frequency-mixing unit receives the reflected detection signal from the transmit/receive antenna unit for frequency
demodulation; and

the frequency-mixing unit mixes and demodulates the reflected detection signal from the transmit/receive antenna unit with
the output signal from the oscillation unit into a baseband output signal which represents a motion/vibration information.

US Pat. No. 9,325,063

RADIATION PATTERN INSULATOR AND MULTIPLE ANTENNAE SYSTEM THEREOF AND COMMUNICATION DEVICE USING THE MULTIPLE ANTENNAE SYSTEM

Industrial Technology Res...

1. A radiation pattern insulator, comprising:
a dielectric substrate, allocated between a plurality of antennae, wherein the dielectric substrate comprises a top surface
and a bottom surface, and a normal direction of the dielectric substrate is substantially perpendicular to propagation directions
of a plurality of electromagnetic waves radiated from the antennae;

a plurality of uniplanar radiation pattern insulation elements, allocated on the top surface or the bottom surface of the
dielectric substrate, wherein the uniplanar radiation pattern insulation elements are located in one plane and are not grounded;
and

a tree shape insulation element, allocated on a surface of the dielectric substrate opposite to the surface on which the uniplanar
radiation pattern insulation elements are allocated.

US Pat. No. 9,311,366

INTERACTIVE OBJECT RETRIEVAL METHOD AND SYSTEM

Industrial Technology Res...

1. An interactive object retrieval method, comprising:
receiving a query and a time and space searching condition;
selecting a plurality of data records of a first category complied with the time and space searching condition from an object
database;

comparing a similarity between the query and each of the data records of the first category to obtain a plurality of data
records of a second category wherein a time information and a location information are corresponding to each of the data records
of the second category;

dividing the data records of the second category into a plurality of groups, wherein the data records of the second category
in a same group correspond to a same location information, and a time difference between the time information corresponding
to the data records of the second category in the same group does not exceed a predetermined value;

respectively selecting the data records of the second category having a highest similarity with the query from each of the
groups;

taking all of the data records of the second category which are selected as a plurality of searching results;
receiving at least one user input corresponding to at least one of the searching results from a user interface, wherein each
of the at least one user input corresponds to a similarity decreasing operation or a similarity increasing operation; and

determining a display manner of each of the searching results on the user interface according to the at least one user input
and a similarity between the query and each of the searching results, comprising

for each of the at least one user input, determining whether the user input corresponds to the similarity decreasing operation
or the similarity increasing operation, so as to change a display size of one of the searching results on the user interface
and to change the similarity between the query and the one of the searching results, wherein the one of the searching results
is corresponding to the user input; and

selecting the searching results that have the similarity with the query higher than a threshold value from all of the searching
results to serve as a plurality of formal searching results.

US Pat. No. 9,242,191

FILTRATION DEHYDRATION APPARATUS

INDUSTRIAL TECHNOLOGY RES...

1. A filtration dehydration apparatus, comprising:
a filter, composed of a filtration layer and an absorption layer while allowing a surface of the filtration layer that is
orientated opposite to the absorption layer to be a first side of the filter, and allowing a surface of the absorption layer
that is orientated opposite to the filtration layer to be a second side of the filter;

a supporting structure, for supporting and fixedly securing the filter;
a solid collector, for collecting any solid object left on the first side solid collector comprising:
at least one scraper, for scraping off solids left on the first side of the filter;
a driver, for driving the at least one scraper to move; and
a container, for storing the solids after being scrapped off the first side of the filter; and
an extrusion unit, for pressing the absorption layer so as to squeeze liquid containing in the absorption layer out of the
same;

wherein, the first side is provided for a solid-liquid mixture to be placed thereon for allowing the liquid containing in
the solid-liquid mixture to flow into the absorption layer through the filtration layer while enabling any solid object in
the solid-liquid mixture to be filtered out and thus left on the first side.

US Pat. No. 9,526,085

APPARATUSES FOR COMMUNICATING WITH NEW CARRIER TYPE PHYSICAL BROADCAST CHANNEL

Industrial Technology Res...

1. A communication station, comprising:
a modulation circuit, configured to operably modulate one or more master information blocks (MIBs);
a mapping circuit, configured to operably map the modulated MIBs to a new carrier type physical broadcast channel (PBCH) wherein
the PBCH is configured in a plurality of radio frames; and

a transmitting circuit, configured to operably transmit the radio frames;
wherein each of the radio frames comprises a plurality of subframes; each of the subframes comprises a plurality of slots;
each of the slots comprises a plurality of orthogonal frequency division multiplexing (OFDM) symbols; each of the OFDM symbols
comprises a plurality of subcarriers; each of the slots comprises a plurality of radio blocks (RBs); each of the RBs comprises
a predetermined number of OFDM symbols located on a predetermined number of subcarriers; the mapping circuit maps the modulated
MIBs to a plurality of central RBs of a first predetermined subframes of the radio frames; the central RBs are configured
to be around a DC subcarrier of the subcarriers; and the mapping circuit maps the modulated MIBs to only part of the central
RBs;

wherein the mapping circuit maps the modulated MIBs to a first RB and a second RB of the central RBs of a first slot of the
first predetermined subframe and to a third RB and a fourth RB of the central RBs of a second slot of the second predetermined
subframe, the first RB and the third RB respectively comprise a first RB number and a third RB number which are different
and the second RB and the fourth RB respectively comprise a second RB number and a fourth RB number which are different.

US Pat. No. 9,399,615

CATALYST AND METHOD FOR HYDROGENATION OF 4,4?-METHYLENEDIANILINE

INDUSTRIAL TECHNOLOGY RES...

1. A catalyst for hydrogenation of 4,4?-methylenedianiline, comprising:
a support,
a magnesium-aluminum oxide layer covering the support; and
a rhodium-ruthenium active layer loaded on the magnesium-aluminum oxide layer,
wherein the rhodium and the ruthenium of the rhodium-ruthenium active layer have a weight ratio of 40:60 to 10:90.

US Pat. No. 9,305,326

APPARATUS AND METHOD FOR TILE ELIMINATION

INDUSTRIAL TECHNOLOGY RES...

1. An apparatus for tile elimination in rendering, comprising:
a front portion pipeline module, a tile-elimination module, a back portion pipeline module, all connected in a pipeline manner;
the tile-elimination module further comprising:
a tile engine, connected to the front portion pipeline module and to generate a list of arrays indicating the processing elements
to be rendered on a tile basis;

a signature value computation unit, connected to the front portion pipeline and the tile engine for computing each of a plurality
of signature values corresponding to each of a plurality of signature types from the front portion pipeline module;

a signature value repository, connected to the signature value computation unit for storing the signature values computed
by the signature value computation unit; and

a tile comparison unit, connected to the tile engine and the signature value repository for comparing signature values of
a tile of the current frame and the same tile of a previous frame, and for accessing signature values of tiles stored in the
signature value repository;

the tile comparison unit also responsible for determining whether to eliminate the rendering of the tile in the current frame;
the tile comparison unit being connected to the back portion pipeline and responsible for determining whether to proceed to
render the tile or to copy the tile in the previous frame the back portion pipeline and eliminate the rendering of the tile.

US Pat. No. 10,098,225

FLEXIBLE ELECTRONIC MODULE AND MANUFACTURING METHOD THEREOF

Industrial Technology Res...

1. A flexible electronic module, comprising:a patterned flexible substrate, comprising at least one distributed region;
a stretchable material layer, connected with the distributed region; and
at least one electronic device, disposed on at least one of the patterned flexible substrate and the stretchable material layer, the at least one electronic device comprising a stretchable conductive wire, wherein the at least one electronic device further comprises a plurality of first electrodes disposed on the patterned flexible substrate and a plurality of bonding pads, and the stretchable material layer is distributed between the first electrodes; and
wherein the stretchable conductive wire, the plurality of bonding pads, and the plurality of first electrodes are respectively disposed on the distributed regions of the patterned flexible substrate having same height.

US Pat. No. 9,497,768

SYSTEM OF DYNAMICALLY ADJUSTING GENERATION FREQUENCY OF MESSAGES IN VEHICULAR NETWORKS AND METHOD THEREOF

INDUSTRIAL TECHNOLOGY RES...

1. A system of dynamically adjusting a generation frequency of messages in vehicular networks arranged in a carrier, comprising:
a message receiver configured for receiving a message priority and a minimum update frequency of messages from an application
and an event indication generated by the carrier when moving dynamically; and

a processor configured for
determining whether a generation frequency of messages of the carrier meets the minimum update frequency and generating a
frequency adjustment instruction when the generation frequency does not meet the minimum update frequency;

determining whether the event indication is an emergent event after receiving the frequency adjustment instruction, and generating
an interruptive adjustment instruction when the event indication is determined to be the emergent event, or a progressive
adjustment instruction when the event indication is determined to be not the emergent event; and

adjusting the generation frequency based on the interruptive adjustment instruction or the progressive adjustment instruction,
wherein the processor, based on the progressive adjustment instruction, reduces a generation frequency of messages of another
carrier, detects a channel load of a message transmitting channel in the carrier, and adjusts the generation frequency based
on the channel load, and wherein the processor, based on the interruptive adjustment instruction, adjusts the generation frequency
to be no lower than the minimum update frequency, and reduces a generation frequency of messages of another carrier according
to one or more channel access parameters which are set based on the message priority.

US Pat. No. 9,356,249

ORGANIC ELECTRONIC DEVICE AND ELECTRIC FIELD-INDUCED CARRIER GENERATION LAYER

Industrial Technology Res...

1. An organic electronic device comprising:
a first electrode;
a second electrode;
a plurality of organic light-emitting units disposed between the first electrode and the second electrode; and
an electric field-induced carrier generation layer disposed between two adjacent organic light-emitting units and comprising
a p-type material and an n-type material alternately distributed in at least one direction different from a direction from
the first electrode to the second electrode and different from a direction from the second electrode to the first electrode,
wherein a weight ratio of the at least one part of the p-type material to the at least one part of the n-type material ranges
from 0.05 to 99.

US Pat. No. 9,268,032

ELECTRICAL RADIOGRAPHY IMAGING SYSTEM AND METHOD THEREOF

INDUSTRIAL TECHNOLOGY RES...

1. An electrical radiography imaging system, comprising:
a sensing element, comprising a plurality of pixels arranged in an array, each of the pixels comprising:
a substrate;
an active component on the substrate;
a first electrode on the substrate, the first electrode having a plurality of first portions;
a second electrode on the substrate, the second electrode having a plurality of first portions and electrically coupled with
the active component, the first portions of the first electrode being interlaced with the first portions of the second electrode;

a photo-conversion layer on the second electrode; and
a third electrode on the photo-conversion layer.

US Pat. No. 9,256,321

TOUCH DEVICE, PROCESSOR AND TOUCH SIGNAL ACCESSING METHOD THEREOF

INDUSTRIAL TECHNOLOGY RES...

1. A touch signal accessing method, comprising the steps of:
receiving a current touch point;
determining whether a spatial continuity is smaller than a spatial threshold, the spatial continuity being a spacing distance
between a previous touch point and the current touch point;

determining whether a time continuity is smaller than a time threshold, the time continuity being a time interval between
the previous touch point and the current touch point, and if the spatial continuity is smaller than the spatial threshold,
and the time continuity is smaller than the time threshold, adding the current touch point to a temporary touch point set
and accumulating a count value;

determining whether the current touch point is a significance point according to the count value; and
performing a touch point reporting procedure if the current touch point is the significance point.

US Pat. No. 9,224,700

PACKAGE OF ENVIRONMENTAL SENSITIVE ELEMENT

Industrial Technology Res...

1. A package of an environmental sensitive element, comprising:
a flexible substrate;
an environmental sensitive element disposed on the flexible substrate;
at least one flexible sacrificial layer disposed on the environmental sensitive element, wherein the environmental sensitive
element comprises a plurality of first thin films, the flexible sacrificial layer includes a plurality of second thin films,
and the bonding strength between two adjacent second thin films is equal to or lower than the bonding strength between two
adjacent first thin films, and the second thin films in the flexible sacrificial layer comprise:

at least one sacrificial thin film disposed on the first thin films, wherein the material of the at least one sacrificial
thin film includes organic small molecular material with the molecular weight about 10 g/mol˜5000 g/mol or organic oligomers
with the molecular weight about 500 g/mol˜9000 g/mol; and

at least one flexible protecting thin film; and
a packaging structure covering the environmental sensitive element and the flexible sacrificial layer.

US Pat. No. 9,355,785

ELECTROLYTE MIXTURE, ELECTROLYTIC CAPACITOR HAVING THE SAME AND OXIDANT MIXTURE FOR CONJUGATED POLYMER SYNTHESIS

Industrial Technology Res...

1. A solid electrolytic capacitor, comprising an electrolyte mixture formed by polymerizing a precursor of a monomer of a
conjugated polymer and an oxidant mixture directly on a surface of a dielectric layer,
wherein the oxidant mixture at least comprising an oxidant, a polyether, and a nitrogen-containing compound, or at least comprising
the oxidant, the polyether, and a nitrogen-containing polymer, or at least comprising the oxidant, and a polyether with nitrogen-containing
functional groups on a main chain thereof.

US Pat. No. 9,091,849

WEARABLE DISPLAY AND ADJUSTING METHOD THEREOF

INDUSTRIAL TECHNOLOGY RES...

1. An adjusting method of a wearable display, for adjusting an orientation of the wearable display, the adjusting method comprising:
providing a background image,
displaying a central mark on a display unit of the wearable display, wherein the central mark is overlapped with the background
image, and a first sight line passes through the central mark; and

displaying a blind spot mark on the display unit, wherein the blind spot mark is overlapped with the background image, a second
sight line passed through the blind spot mark, and an included angle between the first sight line and the second sight line
is 14 to 16 degrees.

US Pat. No. 9,362,057

ELECTROLYTE MIXTURE FOR ELECTROLYTIC CAPACITOR, COMPOSITION FOR CONDUCTIVE POLYMER SYNTHESIS AND CONDUCTIVE POLYMER SOLID ELECTROLYTIC CAPACITOR FORMED BY USING THE SAME

Industrial Technology Res...

1. A solid electrolyte mixture, comprising a conductive polymer and a nitrogen-containing polymer, wherein the nitrogen-containing
polymer comprises a cyclic nitrogen-containing polymer, a polymer with primary amine group, a polymer with secondary amine
group, a polymer with tertiary amine group, a polymer with quaternary ammonium group, or a combination thereof, wherein a
weight average molecular weight of the nitrogen-containing polymer ranges from 1,500 to 1,300,000.

US Pat. No. 9,267,005

FLEXIBLE MALEIMIDE POLYMER AND METHOD FOR PREPARING THE SAME

INDUSTRIAL TECHNOLOGY RES...

1. A flexible maleimide polymer, which is a reaction product of a composition consisting of a reactant (a), a reactant (b),
and a reactant (c), and an organic solvent, wherein the reactant (a) has a structure represented by

wherein R is H, —(CH2)10—CO2H, or

and R2 is H, OH, SO3Na, NO2, CN or CO2H;
the reactant (b) is a compound with a structure represented by formula (III)

wherein A is
R3 is H or methyl group, x is between 1-12, R4 is H or methyl group, and y and z are both between 1-5; and
the reactant (c) is a compound with a structure represented by formula (IV), or a compound with a structure represented by
formula (V)


wherein R5 and R6 are independent H or C1-4 alkyl group, and wherein the molar ratio between the reactant (a) and the reactant (c) is from 16:1 to 1:1, and the molar
ratio between the reactant (b) and the reactant (c) is from 4:1 to 1:1.

US Pat. No. 9,166,843

DIGITAL PULSE WIDTH GENERATOR AND METHOD FOR GENERATING DIGITAL PULSE WIDTH

INDUSTRIAL TECHNOLOGY RES...

10. A digital pulse width generator, comprising:
a phase control circuit for receiving a first set of bits of pulse data to generate a first period, a plurality of first phase
signals, and a plurality of second phase signals, wherein the first period comprises an interval, the plurality of first phase
signals are set to a first logic value in the interval, the plurality of first phase signals are generated according to a
plurality of first phase clock signals after an end of the interval, the plurality of second phase signals are set to the
first logic value in the first period, the plurality of second phase signals are generated according to a plurality of second
phase clock signals after an end of the first period, the interval starts at the same time with the first period, the interval
ends earlier than the first period, and the plurality of first phase clock signals have different phases from the plurality
of second phase clock signals; and

a phase select circuit coupled to the phase control circuit for receiving the plurality of first phase signals, the plurality
of second phase signals, and second set of bits of the pulse data to select a first signal from the plurality of first phase
signals and the plurality of second phase signals according to the second set of bits of the phase data as a pulse width signal,

wherein the phase control circuit receives a load signal to load the first set of bits of the pulse data to the phase control
circuit, and the phase select circuit receives the load signal to load the second set of bits of the pulse data to the phase
select circuit.

US Pat. No. 9,826,628

FLEXIBLE ELECTRONIC MODULE

INDUSTRIAL TECHNOLOGY RES...

1. A flexible electronic module, comprising:
a flexible substrate comprising a supporting portion, a body portion, a connection portion, and a line-routing portion, wherein
a surface of the body portion is lower than surfaces of the supporting portion, the connection portion, and the line-routing
portion, and the supporting portion is connected with the line-routing portion through the connection portion;

a first trench disposed between the supporting portion, the connection portion, and the line-routing portion;
an electronic device disposed over the supporting portion; and
a conductive line disposed over the supporting portion, the connection portion, and the line-routing portion for connecting
the electronic device.

US Pat. No. 9,357,453

HOME BASE STATION AND METHOD FOR SUPPORTING PLURALITY OF CELLS UNDER CARRIER AGGREGATION

Industrial Technology Res...

1. A home base station for supporting a plurality of cells under carrier aggregation, comprising:
a preamble generator for allocating respective random access resources in the cells for handover to be carried out by a user
equipment (UE), and upon receiving a handover request signal transmitted by a Mobility Management Entity (MME), generating
a specific preamble and its transmission time, so that the UE performs random access on the cells based on the preamble and
the transmission time to obtain the random access resources and sends out a Random Access Preamble (RAP); and

a preamble monitor for enabling the cells to simultaneously monitor the RAP sent by the UE, and when one of the cells receives
the RAP, identifying the cell on which the UE camps based on which one of the cells that has the RAP,

wherein the cell that receives the RAP disables monitoring actions of the other cells to stop the other cells from monitoring
the RAP.

US Pat. No. 9,234,493

WAVE POWER GENERATION SYSTEM AND HYDRAULIC COMPONENT THEREOF

INDUSTRIAL TECHNOLOGY RES...

1. A wave power generation system disposed on the sea comprising:
a power generation component;
an upper floating body;
a lower floating body; and
a hydraulic component comprising:
a cylinder communicating with the power generation component, wherein the cylinder has an accommodation space and a vent located
on a middle section of the accommodation space such that the vent runs outside from the accommodation space, and the accommodation
space is configured for accommodating a fluid; and

a piston disposed in the accommodation space and configured for being guided by the accommodation space and sliding relative
to the cylinder, so as to drive the power generation component to convert mechanical energy into electrical energy, and to
force the remaining air in the accommodation space and the remaining air in the fluid to be discharged via the vent;

wherein the cylinder further comprises an annular side wall forming the accommodation space, the cylinder has a first opening
and a second opening, the accommodation space and the power generation component are connected to each other via the first
opening and the second opening, the first opening and the second opening are located on opposite ends of the annular side
wall, respectively, and the vent is located in the annular side wall and between the first opening and the second opening.

US Pat. No. 9,231,351

SMART PLUGS, SMART SOCKETS AND SMART ADAPTORS

Industrial Technology Res...

1. An apparatus, comprising:
a smart plug, comprising a set of power pins and a set of feedback pins, wherein the feedback pins are arranged so as to be
insulated from the power pins; and

a smart socket, comprising:
a set of power sockets, configured for the set of power pins of the smart plug to plug into;
a driving pin and a set of detection pins, configured to forming a circuit with the set of feedback pins of the smart plug
when the set of power pins is plugged into the power sockets; and

an identification code module, configured for obtaining from the circuit an identification code of an electric appliance to
which the smart plug belongs.

US Pat. No. 9,059,586

THROUGH SILICON VIA BIDIRECTIONAL REPAIR CIRCUIT OF SEMICONDUCTOR APPARATUS

Industrial Technology Res...

1. A through silicon via (TSV) bidirectional repair circuit of a semiconductor apparatus, comprising:
a first chip and a second chip, wherein the first chip and the second chip are stacked on top of each other;
a first bidirectional switch and a second bidirectional switch respectively disposed on the first chip and the second chip,
wherein the first bidirectional switch and the second bidirectional switch respectively receive a switch signal and an opposite
switch signal as to determine whether to transmit an input signal of the first chip or the second chip to an output terminal;

at least two transmission path modules, wherein each of the transmission path modules has two terminals respectively connected
to the output terminals of the first bidirectional switch and the second bidirectional switch, and each of the transmission
path modules comprises at least one through silicon via (TSV); and

a first output logical circuit and a second output logical circuit respectively disposed on the second chip and the first
chip, wherein input terminals of the first output logical circuit and the second output logical circuit are respectively connected
to a second terminal and a first terminal of the at least one TSV to respectively receive at least two first transmission
signals and at least two second transmission signals, so as to respectively generate a first output signal and a second output
signal,

wherein, each of the transmission path modules comprises:
the at least one TSV, wherein each of the at least one TSV passes through a silicon substrate to transmit signals between
the first chip and the second chip to each other;

a first data path circuit and a second data path circuit respectively disposed on the first chip and the second chip, wherein
input terminals of the first data path circuit and the second data path circuit are respectively connected to the output terminals
of the first bidirectional switch and the second bidirectional switch to receive the input signal of the first chip or the
second chip, and output terminals of the first data path circuit and the second data path circuit are respectively connected
to the first terminal and the second terminal of the at least one TSV to transmit data through the at least one TSV according
to one of the switch signal and the opposite switch signal; and

wherein, the first data path circuit and the second data path circuit respectively comprise:
an input driving circuit to receive the input signal, convert the input signal into a pending signal according to a first
level voltage and a second level voltage, and transmit the pending signal to a corresponding terminal of the at least one
TSV;

a short-circuit detection circuit connected to the corresponding terminal of the at least one TSV to detect whether short-circuit
on the at least one of TSV and the silicon substrate is present according to the input signal, a level of the corresponding
terminal of the at least one TSV and one of the opposite switch signal and the switch signal and generate a short-circuit
detection output signal; and

a leakage current cancellation circuit connected to the short-circuit detection circuit and the input driving circuit to avoid
a leakage current generated by the first level voltage to flow into the silicon substrate according to the short-circuit detection
output signal.

US Pat. No. 9,381,513

DETECTION CHIP AND METHOD FOR USING THE SAME

Industrial Technology Res...

1. A method for using a detection chip, comprising:
providing a detection chip, wherein the detection chip comprising:
a substrate, comprising a first containing slot, wherein the first containing slot comprises a first space and a second space
adjacent to each other;

an active reagent, disposed in the first space of the first containing slot;
a hydrophilic droplet, disposed in the second space of the first containing slot, wherein the hydrophilic droplet comprises
magnetic particles therein; and

a lipophilic substance, disposed in the first containing slot, wherein the lipophilic substance is immiscible to the active
reagent and the hydrophilic droplet, and separates the active reagent from the hydrophilic droplet;

transforming the lipophilic substance in the detection chip from solid to liquid;
using an external force device to enable the hydrophilic droplet to be in contact with the active reagent, so that the active
reagent is dissolved in the hydrophilic droplet to form a first droplet reagent, wherein the external force device is the
magnetic device, so that the hydrophilic droplet is enabled to move towards the active reagent due to magnetic force via the
magnetic device; and

enabling a sample to be in contact with the first droplet reagent.
US Pat. No. 9,353,272

ORGANIC DISPERSION, METHOD FOR PREPARING THE SAME, AND COATING COMPOSITION PREPARED FROM THE SAME

INDUSTRIAL TECHNOLOGY RES...

1. An organic dispersion, comprising:
an organic solvent; and
an inorganic nano sheet material modified by a fluoro-containing modifier and dispersed in the organic solvent, wherein the
modified inorganic nano sheet material is at least one selected from the group consisting of smectite clay, vermiculite, halloysite,
mica, layered double hydroxide (LDH) and synthetic smectite in a size from 20 to 80 nm, and the organic dispersion has a solid
content from 1 to 20 wt %, and a weight ratio of the fluoro-containing modifier in the modified inorganic nano sheet material
to the modified inorganic nano sheet material is in a range from 0.06 to 1.5, wherein the fluoro-containing modifier has a
structure of (R1)3-n-Si—{(Cp+qH2pF2q)—CF3}1+n, in which n is an integer of from 0 to 2, p and q are positive integers, p+q?2, and R1 is selected from the group consisting
of —OH, —OCH3, —OC2H5 and —Cl.

US Pat. No. 9,328,362

RECOMBINANT ENZYME SYSTEMS FOR EFFICIENT PRODUCTION OF ITACONATE IN CELLS

Industrial Technology Res...

1. A fusion polypeptide, comprising an aconitase (Aco) and a cis-aconitate decarboxylase (CAD), wherein the polypeptide exhibits
an Aco activity and a CAD activity.

US Pat. No. 9,450,202

ENVIRONMENTAL SENSITIVE ELECTRONIC DEVICE PACKAGE HAVING SIDE WALL BARRIER STRUCTURE

Industrial Technology Res...

1. An environmental sensitive electronic device package comprising:
a first substrate;
a second substrate located above the first substrate;
an environmental sensitive electronic device located on the first substrate and between the first substrate and the second
substrate;

a first adhesive located between the first substrate and the second substrate, the first adhesive covering the environmental
sensitive electronic device;

a third substrate located below the first substrate, the first substrate being located between the second substrate and the
third substrate;

at least one first side wall barrier structure located on the third substrate and between the first substrate and the third
substrate, wherein the at least one first side wall barrier structure is embedded in the first substrate; and

a second adhesive located between the first substrate and the third substrate, the second adhesive covering the at least one
first side wall barrier structure.

US Pat. No. 9,357,188

PHOTOGRAPHY AND PROJECTION APPARATUS AND LIGHT EMITTING AND SENSING MODULE

Industrial Technology Res...

1. A photography and projection apparatus, comprising:
a light emitting and sensing module having a light emitting and sensing area, the light emitting and sensing module comprising:
a light emitting unit array, comprising a plurality of light emitting units arranged in an array, wherein the light emitting
units are distributed in the light emitting and sensing area and the light emitting unit array is adapted to provide an image
beam; and

a light sensing unit array, comprising a plurality of light sensing units arranged in an array, wherein the light sensing
units are distributed in the light emitting and sensing area, and each of the light sensing units and a corresponding one
of the light emitting units form a pixel; and

a projection lens, disposed on a transmission path of the image beam;
wherein a light isolation structure is disposed between two adjacent pixels, so as to prevent light emitted by a light emitting
unit in a pixel from being detected by a light sensing unit in an adjacent pixel, and wherein in each of the pixels, the light
isolation structure is not disposed between the light sensing unit and the corresponding light emitting unit.

US Pat. No. 9,467,066

CONTROL METHOD FOR DC TO AC CONVERTER

INDUSTRIAL TECHNOLOGY RES...

1. A control method applied to a DC to AC converter capable of selectively operating in a continuous conduction mode or in
a discontinuous conduction mode, in which the control method comprises:
outputting a first output signal in a first work frequency according to a power value of an input signal, wherein the first
work frequency is associated with a plurality of first cycles, and a first transition period and a first standby period in
each of the plurality of first cycles have a first time ratio therebetween;

detecting a power value of the first output signal during the first transition period;
increasing the first work frequency when the power value of the first output signal is increasing; and
reducing the first work frequency when the power value of the first output signal is decreasing.

US Pat. No. 9,242,208

REGENERATING-TYPE COMPRESSED AIR DRIER AND DEHUMIDIFICATING-AND-REGENERATING UNIT

INDUSTRIAL TECHNOLOGY RES...

16. A dehumidifying-and-regenerating unit, comprising:
an inlet cover;
an outlet cover;
two dehumidifying-and-regenerating components, each of which has two end surfaces fixed to and sealed with the inlet cover
and the outlet cover respectively;

a partition board that partitions the inlet cover, the outlet cover and the two dehumidifying-and-regenerating components
into two air passages;

two chambers formed in the dehumidifying-and-regenerating components respectively; and
two dehumidification modules disposed in the chambers respectively.

US Pat. No. 9,224,599

P-TYPE METAL OXIDE SEMICONDUCTOR MATERIAL AND METHOD FOR FABRICATING THE SAME

INDUSTRIAL TECHNOLOGY RES...

1. A P-type metal oxide semiconductor material having a formula of:
In(1?a)Ga(1?b)Zn(1+a+b)O4
wherein 0?a?0.1, 0?b?0.1, and 0 of between 1×1011 cm?3 and 5×1018 cm?3.

US Pat. No. 9,082,582

CARRIER ASSEMBLY OF MICROSCOPE ELEMENT AND OPERATION METHOD THEREOF

INDUSTRIAL TECHNOLOGY RES...

1. A carrier assembly applicable to be disposed on a microscope element, wherein the carrier assembly comprises:
a base non-rotatably disposed on a carrier platform of the microscope element;
a first gear element rotatably disposed on the base and directly or indirectly connected to a rotatable portion of the carrier
platform belonging to the microscope element, wherein the carrier platform further comprises a non-rotatable portion;

a second gear element rotatably disposed on the base and meshed with the first gear element;
an object-carrier disposed on the second gear element for carrying an object, and
a fixing part connecting the base to the non-rotatable portion of the carrier platform;
wherein, an included angle is contained between a rotating axis of the first gear element and a rotating axis of the second
gear element;

wherein one of the base and the fixing part has an opening hole, and the other of the base and the fixing part is detachably
inserted into the opening hole to directly engage in the opening hole for restricting movement of the opening hole along a
direction perpendicular to the rotating axis of the first gear element and the rotating axis of the second gear element.

US Pat. No. 9,055,848

SUCTION CLEANER AND OPERATION METHOD THEREOF

Industrial Technology Res...

1. A suction cleaner comprising:
a housing, an end of the housing having a dust-suction opening;
a holding part connected to the housing;
an impeller module located inside the housing, a channel being configured between the dust-suction opening and the impeller
module;

a first sensing device configured on the holding part;
a second sensing device configured around the dust-suction opening;
a third sensing device configured in the channel; and
a controller electrically connected to the impeller module, the first sensing device, the second sensing device, and the third
sensing device, wherein

the controller drives the impeller module to rotate at a first rotation rate based on the sensing condition of the first sensing
device, and the suction cleaner is in a ready-to-work state when the holding part of the suction cleaner is being contacted;

the controller drives the impeller module to rotate at a second rotation rate based on the sensing condition of the second
sensing device, and the suction cleaner is in a normal dust-suction state when the suction cleaner comes close to or in contact
with a surface of an object;

the controller drives the impeller module to continuously rotate at the second rotation rate based on the sensing condition
of the third sensing device, and the suction cleaner maintains the normal dust-suction state when the suction cleaner collects
a relatively small quantity of dust particles or debris; and

the controller drives the impeller module to rotate at a third rotation rate based on the sensing condition of the third sensing
device, and the suction cleaner is in a maximum dust-suction state when the suction cleaner collects a relatively large quantity
of dust particles or debris.

US Pat. No. 9,860,950

DIMMING CONTROL METHOD AND CIRCUIT THEREOF

INDUSTRIAL TECHNOLOGY RES...

1. A dimming control circuit, comprising:
an electrical potential detecting unit configured to detect turning points of a waveform of a triode for alternating current
(TRIAC) signal, wherein the TRIAC signal includes at least one positive half cycle waveform;

a microprocessing unit including:
a calculating module configured to calculate a conduction angle of the at least one positive half cycle waveform based on
the turning points; and

a pulse width modulated (PWM) module configured to rebuild a PWM signal with symmetrical positive and negative half cycle
waveforms based on the at least one positive half cycle waveform and the conduction angle of the at least one positive half
cycle waveform; and

an optical coupler and a zero point detector, wherein the zero point detector synchronizes the PWM signal with an alternating
current (AC) signal, such that a synchronized signal is inputted into a TRIAC circuit for outputting a signal that controls
a lamp.

US Pat. No. 9,356,865

METHOD FOR DYNAMICALLY CONTROLLING DATA PATHS, MTC GATEWAY AND NETWORK DEVICE USING THE SAME

Industrial Technology Res...

1. A network device, adapted to a machine-type-communication (MTC) network comprising local-access devices, MTC gateways and
at least one MTC server, the network device comprising:
a first interface, connected to at least one MTC server, configured to receive capillary network information of MTC capillary
networks and MTC gateway interconnection information of the MTC gateways from the at least one MTC server,

wherein the MTC network comprises the MTC capillary networks, at least one mobile network operator domain, the MTC gateways
and the at least one MTC server,

wherein the mobile network operator domain comprises a core network and an access network, the mobile network operator domain
comprises the network device, and part of the local-access devices connected to the MTC gateways such that the MTC capillary
networks are connected to the mobile network operator domain through the MTC gateways,

wherein the MTC capillary networks comprise the local-access devices which are MTC local-access devices, the local-access
devices are located in the MTC capillary networks, the MTC gateways are interconnected with each other, the network device
is located in the mobile network operator domain, and the network device is Access Network Discovery and Selection Function,

wherein the capillary network information comprises busy hours of the MTC capillary networks and inter-capillary network connection,
and the MTC gateway interconnection information comprise MTC gateway interconnection topology and MTC gateway interconnection
network characteristics;

a storage unit is connected to the first interface, configured to store the capillary network information and the MTC gateway
interconnection information;

at least one processor, connected to the storage unit to access the storage unit and programmed to executed:
an aggregated topology generator to combine a access network topology of access network information provided by at least one
mobile network operator and a MTC gateway interconnection topology of the MTC gateway interconnection information to build
an aggregated topology map related to the MTC capillary networks, wherein the access network information of the access network
comprises current load situation of at least one base station of the access network; and

an inter-system routing policy (ISRP) controller, to process the aggregated topology map related to MTC capillary networks,
and then generate enhanced policy rules, wherein the inter-system routing policy (ISRP) controller modifies pre-configured
policy rules or create new policy rules to generate the enhanced policy rules, and the enhanced policy rules includes routing
tables of data flow packets from the local-access devices to the MTC server; and

a second interface, connected to the interconnected MTC gateways, configured to respectively transmit the enhanced policy
rules to the interconnected MTC gateways.

US Pat. No. 9,319,660

DEVICE FOR ACQUIRING DEPTH IMAGE, CALIBRATING METHOD AND MEASURING METHOD THEREFOR

Industrial Technology Res...

1. A depth image acquiring device, comprising:
at least one projecting device, projecting a projection pattern to a measured object;
a first and a second image sensing devices, receiving focal length adjusting signals to adjust focal lengths thereof, and
respectively sensing the projection pattern projected to the measured object to generate a first real image and a second real
image;

a mechanism device, coupled to the first and the second image sensing devices, and receiving lens adjusting signals to adjust
locations and/or convergence angles of the first and the second image sensing devices;

a processing unit, coupled to the at least one projecting device, the first and the second image sensing devices and the mechanism
device, providing the focal length adjusting signals and the lens adjusting signals to adjust the focal lengths, locations
and/or convergence angles of the first and the second image sensing devices, and performing a depth operation on the first
and the second real images to generate depth information,

wherein the processing unit calibrates and obtains a three-dimensional (3D) measuring parameter set of the first and the second
image sensing devices at a model focal length according to a plurality of image setting parameter sets corresponding to the
model focal length and a plurality of predetermined node distances corresponding to each of the image sensing devices, and
accordingly performs a depth operation.

US Pat. No. 9,109,807

DEVICE FOR DESORPTION AND DEHUMIDIFICATION AND SYSTEM USING THE SAME

INDUSTRIAL TECHNOLOGY RES...

1. A device for desorption and dehumidification, comprising:
a conductive electrode, further comprising:
a first surface, being formed as a coarse surface; and
a second surface, arranged opposite to the first surface;
a moisture absorber, further comprises:
a third surface, disposed engaging to the coarse first surface; and
a fourth surface, arranged opposite to the third surface;
and
a power source, electrically connected to the conductive electrode for providing a voltage to the conductive electrode so
as to induce a current to flow from the conductive electrode to a gas for creating a gas discharge event and consequently
enabling a corona layer filled with a plurality of charged particles to be formed covering the fourth surface.

US Pat. No. 9,603,136

CONTROL CHANNEL ALLOCATION METHOD, CONTROL CHANNEL SEARCHING METHOD AND COMMUNICATION APPARATUS USING THE SAME

Industrial Technology Res...

1. A control channel allocation method, applied to allocate uplink multiple-input-multiple-output (MIMO) grant command in
a communication system, with multiple component carriers, the method comprising:
allocating downlink control information for at least one uplink MIMO grant command only in a first configurable set of component
carriers but never allocating uplink MIMO grant command in a second configurable set of component carriers; and

transmitting at least one signal comprising the downlink control information for the at least one uplink MIMO grant command
in multiple component carriers in a downlink control channel, wherein the multiple component carriers aggregate the first
configurable set of component carriers and the second configurable set of component carriers, wherein the at least one uplink
MIMO grant command is in downlink control information format 4 for scheduling an uplink MIMO transmission.

US Pat. No. 9,323,059

VIRTUAL IMAGE DISPLAY APPARATUS

Industrial Technology Res...

1. A virtual image display apparatus configured to be disposed in front of at least one eye of a user, the virtual image display
apparatus comprising:
an image display unit providing an image beam;
a first beam splitting unit disposed on a transmission path of the image beam and a transmission path of an object beam from
a foreign object, the first beam splitting unit causing at least one portion of the object beam to propagate to the at least
one eye; and

a reflection-refraction unit, the first beam splitting unit causing at least one portion of the image beam to propagate to
the reflection-refraction unit, the reflection-refraction unit comprising:

a lens portion comprising a first curved surface; and
a reflecting portion located on the first curved surface of the lens portion, wherein at least one portion of the image beam
from the first beam splitting unit travels through the lens portion, is reflected by the reflecting portion, travels through
the lens portion again, and is propagated to the at least one eye by the first beam splitting unit in sequence

wherein the virtual image display apparatus satisfies d-?A unit, f is a focal length of the reflection-refraction unit, A is a ratio obtained by dividing a difference between an optical
path length and an actual length at any position on a light path along an optical axis from the image display unit to the
reflection-refraction unit by a refraction index at the position, ?A is a total value of the ratios A at all the positions
on the light path along the optical axis from the image display unit to the reflection-refraction unit, and the ratios A at
all the positions are at least partially different from one another.

US Pat. No. 9,249,008

MEMS DEVICE WITH MULTIPLE ELECTRODES AND FABRICATING METHOD THEREOF

INDUSTRIAL TECHNOLOGY RES...

1. A MEMS device with multiple electrodes, being adapted to sense air pressure, comprising:
a substrate;
a first electrode on the substrate;
a second electrode on the substrate, including a sensing portion and a stationary portion; and
a third electrode on the substrate, wherein when the sensing portion deforms, the stationary portion and the third electrode
are spaced apart by a predetermined constant distance,

wherein a stationary capacitor is defined between the stationary portion and the third electrode.

US Pat. No. 9,142,769

MAGNETIC FIELD-PARTITIONED NON-VOLATILE MEMORY

Industrial Technology Res...

1. A non-volatile memory cell for multi-bit storage, comprising:
a bottom electrode;
a resistance-changing memory material covering the bottom electrode; and
a top electrode comprising a high-mobility material on the resistance-changing memory material, wherein the top electrode
has two post portions supporting a bar-shaped portion;

wherein at least two bits are stored in portions of the resistance-changing memory material connecting to the top electrode
when an external magnetic field is applied along different directions.

US Pat. No. 9,554,406

METHOD FOR DEVICE TO DEVICE COMMUNICATION AND CONTROL NODE USING THE SAME

Industrial Technology Res...

1. A method of device to device (D2D) communication, adapted for a control node to arrange D2D communication between a first
device and a second device, wherein the first device undergoes a handover procedure to the control node while having a non-D2D
communication with the second device, and the method comprising:
receiving, by the control node, from the first device having the non-D2D communication with the second device a first callee
identification (ID) during the first device being handed over to the control node from another control node, wherein the control
node receives the first callee ID in a handover request message from the another control node, and the first callee ID is
an ID for the D2D communication between the first device and the second device, wherein the control node receives a first
measurement report in response to transmit a first measurement configuration to the second device, and the another control
node also receives a second measurement report transmitted by the first device in response to transmit a second measurement
configuration to the first device, wherein the first callee ID is embedded in the second measurement report, both of the first
measurement report and second measurement report indicate a quality of a channel between the first device and the second device,
wherein the first measurement report and second measurement report are shared by the control node and the another control
node;

searching, by the control node, for the second device having a second callee ID in response to receiving from the first device
the first callee ID; and

arranging, by the control node, for the D2D communication between the first device and the second device when a first condition
is fulfilled, wherein the first condition comprises the D2D communication between the first device and the second device is
triggerable, and the step of arranging for the D2D communication between the first device and the second device when the first
condition is fulfilled is executed before the procedure of handover the first device to the control node is complete,

wherein whether the first condition is fulfilled comprises the criteria of the first device and the second device are within
transmission ranges of each other and the quality of the channel between the first device and the second device is adequate,
and

wherein when the first condition is not fulfilled or when the first condition is no longer fulfilled, arranging, by the control
node, the first device and the second device for the non-D2D communication.

US Pat. No. 9,402,876

METHOD AND PHARMACEUTICAL COMPOSITION FOR HAIR GROWTH

INDUSTRIAL TECHNOLOGY RES...

1. A pharmaceutical composition for hair growth comprising:
a hair growth peptide, wherein the hair growth peptide is selected from the group consisting of SEQ ID NO: 27, SEQ ID NO:
29, SEQ ID NO: 31 and SEQ ID NO: 37; and

a phosphate salt.

US Pat. No. 9,329,599

AUTOMATIC GUIDED VEHICLE AND METHOD FOR CONTROLLING THE SAME

INDUSTRIAL TECHNOLOGY RES...

1. An automatic guided vehicle, comprising:
a vehicle body; and
a positioning identification module furnished at the vehicle body, further comprising:
a three-axis magnetic signal sensing unit; and
a logic operation processing unit connected to the three-axis magnetic signal sensing unit by signal transmitted therefrom;
wherein a magnetic pointer unit is furnished adjacent to the marching route of the automatic guided vehicle and the three-axis
magnetic signal sensing unit senses the magnetic pointer unit and generates a magnetic field information which transmits to
the logic operation processing unit to generate an identification data.

US Pat. No. 9,314,177

SYSTEM AND METHOD OF DETECTING ABNORMAL MOVEMENT OF A PHYSICAL OBJECT

INDUSTRIAL TECHNOLOGY RES...

1. A method of detecting abnormal movement of a physical object, the method comprising:
generating, using a transducer, a periodic signal representative of a movement of the physical object,
generating, by a processor, a raw matrix comprising a first array and a second array, the generation of the raw matrix comprising:
performing a first analysis on a predetermined portion of the periodic signal to generate the first array, the predetermined
portion corresponding to a predetermined time period of the periodic signal; and

performing a second analysis different from the first analysis on the predetermined portion of the periodic signal to generate
the second array;

generating an integrated matrix by performing a dimension reduction on the raw matrix; and
determining a likelihood of a predetermined type of abnormal movement of the physical object by comparing the integrated matrix
or a set of indexes derived from the integrated matrix with a predetermined benchmark pattern corresponding to the predetermined
type of abnormal movement,

wherein the first analysis is a mutual information analysis, comprising:
segmenting the predetermined duration of the periodic signal into a plurality of signal segments, each signal segment including
a nominal waveform, and the plurality of signal segments including one or more pairs of adjacent signal segments;

for each pair of the one or more pairs of adjacent signal segments:
obtaining two signal arrays having the same size by re-sampling one or both of the adjacent signal segments; and
calculating joint probability and marginal probability of the two signal arrays of the re-sampled adjacent signal segments;
calculating a mutual information index based on the calculated joint probability and the calculated marginal probability of
the one or more pairs of re-sampled adjacent signal segments; and

outputting the likelihood of the predetermined type of abnormal movement of the physical object to a display.

US Pat. No. 9,116,357

HYBRID MULTIPLEXED 3D DISPLAY AND DISPLAYING METHOD THEREOF

Industrial Technology Res...

1. A hybrid multiplexed 3D display, comprising:
a light source for sequentially providing a plurality of groups of light emitting toward different emitting directions, wherein
the light source comprises a plurality of directional light emitting devices and the directional light emitting devices having
different main emitting directions emit the plurality of groups of light sequentially;

an image splitter disposed above the light source for transmitting each of the groups of light to a view group comprising
N views respectively distributed in N positions, wherein N is an integer greater than 2 and at least one view of one view
group is partially overlapped with at least one view of another view group; and

an image display disposed above the light source for providing image data and the groups of light being sequentially transmitted
through the image display and the image splitter to respectively generate a plurality of different view images at the N views
such that an image viewed by a user comprises two of the view images to achieve a stereoscopic visual effect, wherein the
plurality of different view images are displayed simultaneously at the N views distributed side by side substantially in the
space.

US Pat. No. 9,466,884

CONNECTOR, ANTENNA AND ELECTRONIC DEVICE

Industrial Technology Res...

1. A connector, comprising:
a first connector body comprising:
at least one dielectric base;
a shell, the shell and the dielectric base being fixed to each other; and
at least one pin set disposed on the dielectric base and configured to connect a second connector body; and
a mode-converting unit comprising:
a substrate fixed to the first connector body and having at least one circuit; and
at least one mode-converting structure, the shell constituting at least one waveguide tube of the mode-converting unit and
configured to transceive a signal, the circuit and the shell being coupled to each other through the mode-converting structure,
and the signal being transmitted from the shell to the circuit through the mode-converting structure, or transmitted from
the circuit to the shell through the mode-converting structure and emitted outward, wherein the signal is a millimeter-wave
signal, and a section of an opening of the shell is related to a cut-off frequency of the shell.

US Pat. No. 9,454,247

INTERACTIVE WRITING DEVICE AND OPERATING METHOD THEREOF USING ADAPTIVE COLOR IDENTIFICATION MECHANISM

INDUSTRIAL TECHNOLOGY RES...

1. An operating method for an interactive writing device, comprising:
capturing a visible light image in response to an original outputted image;
establishing a tag searching region in the visible light image in response to a writing operation performed by a writing object,
wherein the writing object includes a color tag pattern;

filtering out the original outputted image corresponding to the tag searching region from the visible light image in the tag
searching region to generate a local processed image;

searching a color tag corresponding to the color tag pattern of the writing object from the local processed image; and
generating a color value corresponding to the color tag,
wherein the step of establishing the tag searching region comprises:
generating a writing point in response to the writing operation performed by the writing object; and
establishing the tag searching region according to the position of the writing point which falls within the tag searching
region.

US Pat. No. 9,448,121

MEASUREMENT METHOD, MEASUREMENT APPARATUS, AND COMPUTER PROGRAM PRODUCT

Industrial Technology Res...

1. A measurement method, for measuring a thermoelectric module, the measurement method comprising:
providing a temperature to the thermoelectric module;
applying a current to the thermoelectric module to turn both sides of the thermoelectric module respectively into a hot side
and a cold side, wherein temperature of the hot side is higher than temperature of the cold side;

measuring a terminal voltage of the thermoelectric module, a hot side temperature of the hot side, and a cold side temperature
of the cold side at each of a plurality of time points during a first time;

calculating a plurality of differences between the hot side temperatures and the corresponding cold side temperatures according
to the terminal voltages, the hot side temperatures and the cold side temperatures measured at the time points during the
first time to obtain a thermoelectric relationship between the terminal voltages and the differences;

estimating at least one first parameter of the thermoelectric module according to the thermoelectric relationship; and
measuring the cold side temperature of the cold side or the hot side temperature of the hot side during a second time after
the first time and estimating a second parameter according to the at least one first parameter and the cold side temperature
or the hot side temperature measured during the second time.

US Pat. No. 9,392,688

BIOMASS PHOTOSENSITIVE MATERIAL AND METHOD FOR MANUFACTURING THE SAME, AND PRINTED CIRCUIT BOARD

INDUSTRIAL TECHNOLOGY RES...

1. A biomass photosensitive material, comprising:
a product of a ring-opening addition reaction from a copolymer and (c) monomer with a single hydroxy group and a carbon-carbon
double bond,

wherein the copolymer is polymerized of (a) itaconic anhydride and (b) acrylate, and the (a) itaconic anhydride and the single
hydroxy group of the (c) monomer with the single hydroxy group are reacted in the ring-opening addition reaction.

US Pat. No. 9,257,590

PHOTOELECTRIC ELEMENT, DISPLAY UNIT AND METHOD FOR FABRICATING THE SAME

Industrial Technology Res...

1. A dual side photo-sensing touch display panel, comprising:
a substrate;
a plurality of scan lines disposed on the substrate;
a plurality of data lines disposed on the substrate and intersected to the scan lines, and the scan lines and the data lines
defining a plurality of pixel regions on the substrate;

a plurality of pixels disposed in the pixel regions, each of the pixels being electrically connected to the corresponding
scan line and the corresponding data line, respectively, and each of the pixels comprising at least a thin film transistor
and a pixel electrode, the thin film transistor comprising a channel layer, a first bottom electrode, a first electrode and
a second electrode, wherein the first bottom electrode is located below the channel layer, and the pixel electrode is electrically
connected to the second electrode;

a top electrode located above the pixel electrode; and
a plurality of dual side photo-sensing photoelectric elements arranged in an array and disposed on the substrate, and each
of the dual side photo-sensing photoelectric elements comprising a photosensitive layer, a second bottom electrode, a third
electrode and a fourth electrode, wherein the second bottom electrode is located below the photosensitive layer, the top electrode
extends to the top of the photosensitive layer, the top electrode is a transparent top electrode, and each of the second bottom
electrodes is a transparent bottom electrode.

US Pat. No. 9,463,413

HOLLOW FIBER ADSORBENT COMPRESSED DRY AIR SYSTEM

INDUSTRIAL TECHNOLOGY RES...

1. A hollow fiber adsorbent compressed dry air system, comprising:
an intake unit for providing a compressed air;
a first adsorption/regeneration unit having a hollow fiber adsorbent housing and a heating device disposed in the surrounding
of the adsorbent housing;

a second adsorption/regeneration unit having another hollow fiber adsorbent housing and another heating device disposed in
the surrounding of the another adsorbent housing, wherein one of the hollow fiber adsorbent housings performs a drying procedure
to the compressed air in the room temperature, and the other hollow fiber adsorbent housing, when heated by the other heating
device thereof, performs a desorption regeneration procedure using a dried product air from the compressed air as an elution
airflow in a high temperature condition;

a switch unit for alternately switching the drying procedure and the desorption regeneration procedure to the first adsorption/regeneration
unit and the second adsorption/regeneration unit; and

an exhaust unit for outputting the dried product air.

US Pat. No. 9,390,888

APPARATUS AND METHOD OF APPLYING SMALL-ANGLE ELECTRON SCATTERING TO CHARACTERIZE NANOSTRUCTURES ON OPAQUE SUBSTRATE

Industrial Technology Res...

1. A high angular resolution electron scattering apparatus for characterizing surface features in nanometers from a sample
in either a reflection mode, or a backscattering mode or both, wherein the sample comprises an opaque substrate which is made
of materials with a thickness that is impenetrable by electrons in KeV ranges, and the sample has a diameter of up to 40 cm
or larger, the electron scattering apparatus comprising:
a sample stage configured to hold the sample;
an electron source configured to produce an electron beam;
a plurality of electron collimation optics configured to receive the electron beam from the electron source and direct the
electron beam to the sample stage;

a plurality of electron projection optics; and
an electron detector module, wherein the electron projection optics are configured to receive scattered/reflected electrons
from the sample and direct the scattered electrons to the electron detector module, wherein a value of effective distance
from the sample to the electron detector module is up to about 100 meters or more;

wherein angular resolution is in a range from about 10?4 rad to about 10?5 rad, and the electron collimation optics and the electron projection optics are configured and operated in coordination to
achieve the angular resolution.

US Pat. No. 9,373,534

ROTARY POSITIONING APPARATUS WITH DOME CARRIER, AUTOMATIC PICK-AND-PLACE SYSTEM, AND OPERATING METHOD THEREOF

Industrial Technology Res...

1. A rotary positioning apparatus, comprising:
a fixing base;
a rotation mechanism, disposed on the fixing base;
a first driving module, disposed on the fixing base and coupled to the rotation mechanism to drive the rotation mechanism
rotating around a first rotation axis relatively to the fixing base;

a carrier, having a plurality of accommodating slots, wherein the accommodating slots are located on one of circular-arc surfaces
of the carrier, the carrier is pivoted to the rotation mechanism through a second rotation axis, the second rotation axis
passes through the curvature center of the circular-arc surface and perpendicular to the first rotation axis, and the curvature
center is located on the first rotation axis; and

a second driving module, disposed on the rotation mechanism and coupled to the carrier to drive the carrier rotating around
the second rotation axis relatively to the rotation mechanism.

US Pat. No. 9,288,897

ENVIRONMENTAL SENSITIVE ELECTRONIC DEVICE PACKAGE

Industrial Technology Res...

1. An environmental sensitive electronic device package comprising:
a first substrate having at least one predetermined flexure area;
a second substrate located above the first substrate;
an environmental sensitive electronic device located on the first substrate and between the first substrate and the second
substrate;

at least one side wall barrier structure located between the first substrate and the second substrate, wherein the at least
one side wall barrier structure surrounds the environmental sensitive electronic device and has at least one flexure stress
dispersing structure, and the at least one flexure stress dispersing structure is located in the at least one predetermined
flexure area, wherein all of the at least one side wall barrier structure and all of the at least one flexure stress dispersing
structure are made of the same material, and a pattern of the at least one side wall barrier structure located outside of
the at least one predetermined flexure area is different to a pattern of the at least one flexure stress dispersing structure
located in the at least one predetermined flexure area, the number of the at least one side wall barrier structure located
at one side of the first substrate is plural, and the number of the at least one flexure stress dispersing structure is plural;
and

a filler layer located between the first substrate and the second substrate, the filler layer covering the at least one side
wall barrier structure and the environmental sensitive electronic device.

US Pat. No. 9,252,854

USER EQUIPMENT HAVING CHANNEL QUALITY INDICATOR FEEDBACK MECHANISM

Industrial Technology Res...

1. A user equipment (UE) comprising:
a transmitter for transmitting wireless data;
a receiver for receiving wireless data;
a processor coupled to the transmitter and the receiver and is configured for:
receiving via the receiver a signaling comprising a first information related to a channel quality indicator (CQI) threshold
and a N×L precoding matrix having N rows and L columns with each of the N rows corresponding to an antenna port and each of
the L columns corresponding to a user, wherein N and L are both integers greater than one;

obtaining from the first information the CQI threshold and the N×L precoding matrix;
performing a channel quality indicator (CQI) calculation for the L columns of the N×L precoding matrix;
determining from the CQI calculation for the L columns a preferred column that is above the CQI threshold; and
transmitting via the transmitter a second information indicating the preferred column.

US Pat. No. 9,244,161

ULTRASOUND TRANSMISSION CIRCUIT AND TIME DELAY CALIBRATION METHOD THEREOF

INDUSTRIAL TECHNOLOGY RES...

1. An ultrasound transmission circuit, comprising:
a pulse generating circuit;
a feedback circuit, for outputting a trigger signal according to a first pulse signal arriving at an ultrasound transducer;
and

a processing circuit, for driving the pulse generating circuit according to a first delay value to generate the first pulse
signal to the ultrasound transducer, recording a first time point at which the first pulse signal is generated, recording
a second time point at which the first pulse signal arrives the ultrasound transducer, adjusting the first delay value according
to a variance between the first time point and the second time point to generate a second delay value, and driving the pulse
generating circuit to generate a second pulse signal according the second delay value.

US Pat. No. 9,236,616

FUEL CELL ELECTRODE STRUCTURE CONTAINING PLATINUM ALLOY BLACK LAYER, PLATINUM ALLOY CARBON SUPPORT LAYER AND SUBSTRATE LAYER AND FUEL CELL USING THE SAME

Industrial Technology Res...

1. An electrode structure for a fuel cell, the electrode structure comprising:
a cathodic structure;
an ionic exchange membrane disposed next to the cathodic structure; and
an anodic structure, comprising a first platinum alloy black layer, a catalytic platinum alloy carbon support layer and a
first substrate layer in sequence, wherein the first platinum alloy black layer is disposed between the ionic exchange membrane
and the catalytic platinum alloy carbon support layer, wherein the first platinum alloy black layer is free of carbon support
particles and is thinner and denser than the catalytic platinum alloy carbon support layer, and wherein the first platinum
alloy black layer is in direct contact with the ionic exchange membrane and is a layer consisting of platinum alloy particles
and polymer.

US Pat. No. 9,190,987

LATCH APPARATUS AND APPLICATIONS THEREOF

Industrial Technology Res...

1. A latch apparatus, comprising:
a latch circuit comprising a first inverter circuit and a second inverter circuit, wherein the first inverter circuit and
the second inverter circuit are cross-coupled with each other; and

a switchable direct current (DC) block unit coupled to the latch circuit and disposed on a cross-coupling path of the cross-coupled
first and second inverter circuits, wherein the switchable DC block unit is configured to:

isolate the cross-coupling path of the cross-coupled first and second inverter circuits and store a voltage difference opposite
to a supply voltage of the latch apparatus before the latch circuit performs a latch operation; and

when the latch circuit performs the latch operation, provide the stored voltage difference varying with time to increase the
transconductance of at least one transistor in the cross-coupled first and second inverter circuits of the latch circuit.

US Pat. No. 9,155,678

APPARATUS OF CARDIOPULMONARY RESUSCITATOR

INDUSTRIAL TECHNOLOGY RES...

1. A cardiopulmonary resuscitator, comprising:
a panel for supporting a patient;
a first belt, disposed at a side of the panel, for wrapping around a chest of the patient;
a flexible body, disposed on one side of the panel opposite to the side for supporting the patient, functioning to tighten
and loosen the first belt for compressing and releasing the chest of the patient through a inflating and deflating motion
generated by a pneumatic power; and

a controlling module, connected to a pneumatic source, being capable of adjusting the airflow provided from the pneumatic
source to pass in and out the flexible body.

US Pat. No. 9,136,559

NON-AQUEOUS ELECTROLYTE AND LITHIUM SECONDARY BATTERY INCLUDING THE SAME

Industrial Technology Res...

1. A non-aqueous electrolyte, comprising: a lithium salt; an organic solvent; and an electrolyte additive, comprising a reaction
product of reactants of a Compound (A) and a Compound (B), wherein the Compound (A) is a monomer with a reactive terminal
functional group, the Compound (B) is a heterocyclic amino aromatic derivative as an initiator, and a molar ratio of the Compound
(A) to the Compound (B) is from 10:1 to 1:10,
wherein the electrolyte additive is a meta-stable state nitrogen-containing polymer having a part of the reactive functional
groups remained remaining, and

wherein the electrolyte additive has a polydispersity index of 1.1-1.7;
wherein the Compound (A) comprises a maleimide, poly(ethylene glycol)dimethacrylate, bis[[4-[(vinyloxy)methyl]cyclohexyl]methyl]isophthalate),
triallyl trimellitate, or a combination thereof,

wherein the maleimide is represented by one of Formula (10) to Formula (13):

wherein n is an integer of 0 to 4; R6 is —RCH2R?—, —RNHR—, —C(O)CH2—, —R?OR?OR?—, —CH2OCH7—, —C(O)—, —O—, —O—O—, —S—, —S—S—, —S(O)—, —CH2S(O)CH2—, —(O)S(O)—, —C6H4—, —CH2(C6H4)CH2—, —CH2(C6H4)(O)—, —CH2—(NC2H4)—C2H4—, siloxane, biphenylenyl, substituted phenylene or substituted biphenylenyl, R is C1-4 alkylene, R? is C1-4 alkylene, biphenylenyl, substituted alkylene, substituted phenylene or substituted biphenylenyl, R? is C1-4 alkylene, substituted alkylene, substituted phenylene or —C6H4—C(CF3)2—C6H4—, biphenylenyl or substituted biphenylenyl; R7 is RiCH2—, —CH2-(O)—, —(CH3)2—, —O—, —O—O—, —S—, —S—S—, —(O)S(O)—, —C(CF3)2- or —S(O)—, Ri is C1-4 alkylene; and R8 is hydrogen, C1-4 alkyl, phenyl, benzyl, cyclohexyl, —SO3H, —C6H4CN, N-methoxy carbonyl, —(C6H4)—O(C2H4O)—CH3, —C2H4—(C2H4O)11—OCH3 or —C(O)CH3.

US Pat. No. 9,108,643

DRIVING ASSISTANT METHOD AND SYSTEM FOR ELECTRIC VEHICLE

Industrial Technology Res...

1. A driving assistant method for an electric vehicle, comprising:
when the electric vehicle is started up, calculating and displaying a battery energy safe driving region of the electric vehicle
according to driving information of the electric vehicle, wherein the driving information comprises battery information of
the electric vehicle; and

dynamically updating the battery energy safe driving region according to the driving information of the electric vehicle,
wherein a method of defining the battery energy safe driving region comprises:

selecting at least one electricity supplying station;
calculating energy consumption per unit distance of the electric vehicle and taking the at least one electricity supplying
station as a center to calculate a region that the electric vehicle is capable of returning back to the at least one electricity
supplying station under a current battery energy according to the energy consumption per unit distance of the electric vehicle
to serve as at least one safe coverage region; and

uniting the safe coverage regions with each other to obtain a united region to serve as the battery energy safe driving region
when an amount of the at least one safe coverage region is larger than one,

wherein the energy consumption P? per unit distance of the electric vehicle is obtained according to an equation P?=P/ki,
wherein P is energy consumption per unit distance obtained according to data of original equipment manufacturer of the electric
vehicle, ki is a vehicle status-related electricity consumption coefficient.

US Pat. No. 9,426,493

METHOD AND APPARATUS FOR INTER-PICTURE COST COMPUTATION

INDUSTRIAL TECHNOLOGY RES...

1. An inter-picture cost computation method, comprising:
calculating original differences between a plurality of first original pixels at a first frame time and a plurality of second
original pixels at a second frame time;

calculating before-compensation differences between a plurality of first compensated pixels at the first frame time and a
plurality of reconstructed pixels at the second frame time;

calculating an inter-picture cost according to an SAO (Sample Adaptive Offset) compensation value, the original differences,
and the before-compensation differences; and

compensating the plurality of reconstructed pixels according to the SAO compensation value when the inter-picture cost is
a minimum.

US Pat. No. 9,347,640

ILLUMINATING DEVICE

Industrial Technology Res...

1. An illuminating device, comprising:
a light source; and
a lampshade, comprising:
a first curved surface, wherein a curvature of the first curved surface is configured to refract light such that light emitted
from the light source impinging the first curved surface is substantially refracted by the first curved surface; and

a second curved surface, wherein a curvature of the second curved surface is configured to reflect light such that light emitted
from the light source impinging the second curved surface is substantially reflected by the second curved surface, and a curvature
of the first curved surface differs from a curvature of the second curved surface,

wherein the light source and the lampshade are arranged such that light emitted from the light source at light emitting angles
between +90°˜?90° relative to a normal line of the light source is in part reflected and in part refracted by the first and
the second curved surfaces to a surface of a first body extending in a direction parallel to the normal line at a position
offset from the light source and having a first light receiving area and a second light receiving area, the first light receiving
area being adjacent to the second light receiving area, and the second light receiving area being relatively nearer to the
illuminating device than the first light receiving area;

arranged such that light emitted from light source emitted at light emitting angles between +60°˜0° is refracted by the first
curved surface and projected to the first light receiving area, light emitted from light source emitted at light emitting
angles between 0°˜?60° is reflected by the second curved surface and projected to the first light receiving area, light emitted
from light source emitted at light emitting angles between +60°˜+90° is refracted by the first curved surface and projected
to the second light receiving area, and light emitted from light source emitted at light emitting angles between ?60°˜?90°
is reflected by the second curved surface and projected to the second light receiving area,

wherein the curvature of the first curved surface is negative, an absolute value of the curvature of the first curved surface
is greater than a reciprocal of a distance between the light source and the first curved surface,

wherein the curvature of the second curved surface is negative, an absolute value of the curvature of the second curved surface
is greater than a reciprocal of a distance between the light source and the second curved surface.

US Pat. No. 9,206,955

OPTICAL LENS, OPTICAL LENS MODULE, AND METHOD FOR FORMING CURVED SURFACE OF OPTICAL LENS

INDUSTRIAL TECHNOLOGY RES...

1. An optical lens, comprising:
a first curved surface, for receiving a light ray, and comprising a first curve, a first symmetrical curve, and a second curve,
wherein the first curve and the first symmetrical curve are disposed on a first plane, the first curve is symmetrical to the
first symmetrical curve by taking a first direction axis as a symmetrical axis, the second curve is disposed on a third plane,
the first plane is perpendicular to the third plane, the first curve conforms to a first curve equation y=?0.011x6?0.0004x5+0.0771x4+0.0025x3?0.2892x2?0.0024x+2.7968, the second curve conforms to a second curve equation z=0.0085x6?0.0095x5?0.1592x4?0.0469x3+0.3032x2+0.8129x+3.1422, when a value of x is the same for the first curve and the second curve, a third curve is obtained according
to a first curve fitting equation

when a value of x is the same for the first symmetrical curve and the second curve, a fourth curve is obtained according to
a second curve fitting equation
the first curve, the second curve, the first symmetrical curve, the third curves and the fourth curves form first curved surface,
wherein x is a parameter on a third direction axis, the first plane is a plane formed by the first direction axis and the
second direction axis, the third plane is a plane formed by the first direction axis, and the third direction axis, the first
direction axis, the second direction axis, and the third direction axis intersect at an origin, Wy-z is a first weight factor of each to the third curves, and ?Wy-z is a second weight factor of each of the fourth curves, a distance a is a distance from an intersection point of a tangent
of any point on each of the third curves and the second direction axis to the origin, and distance a? is another distance
from an intersection point of a tangent of any point on each fourth curve and the second direction axis to the origin; and
a second curve surface, opposite to the first curved surface, and comprising a fifth curve, a fifth symmetrical curve and
a sixth curve, wherein the fifth curve and the fifth symmetrical curve are disposed on the first plane, the fifth curve is
symmetrical to the fifth symmetrical curve by taking the first direction axis as a symmetrical axis, the sixth curve is disposed
on the third plane, the fifth curve conforms to a third curve equation y=?0.001x6+0.0029x4?0.0002x3?0.1298x2?0.0004x+7.0511,
the sixth curve conforms to a fourth curve equation z=0.0003x4?0.0002x3?0.0305x2+0.005x+8.5870, when a value of x is the same
for the fifth curve and the sixth curve, a seventh curve is obtained according to a third curve fitting equation

when a value of x is the same for the fifth symmetrical curve and the sixth curve, an eighth curve is obtained according to
a fourth curve fitting equation
the fifth curve, the fifth symmetrical curve, the sixth curve, the seventh curves, and the eighth curves form the second curved
surface, W?y-z is a third weight factor of each of the seventh curves, and ?W?y-z is a fourth weight factor of each eighth of the curves, a distance b is a distance from an intersection point of a tangent
of any point on each of the seventh curves and the second direction axis to the origin, and a distance b? is another distance
from an intersection point of a tangent of any point on each of the eighth curves and the second direction axis has to the
origin.

US Pat. No. 9,093,898

BUCK CONVERTER WITH SINGLE STAGE

INDUSTRIAL TECHNOLOGY RES...

1. A single-stage buck converter circuit, comprising:
a buck device comprising a power transistor, a first diode coupled to the power transistor, and a first inductance coupled
to the power transistor and in parallel with the first diode;

a semiconductor component coupled to the buck device;
a first resonance circuit comprising a first capacitor, a second inductance, and a second diode, wherein one terminal of the
second inductance is connected to one terminal of the first capacitor, another terminal of the second inductance is connected
to a cathode of the second diode, another terminal of the first capacitor is connected to an anode of the second diode, and
the first resonance circuit is coupled to the semiconductor component for adjusting operation time constant; and

a second resonance circuit comprising a second capacitor, a third inductance, and a third diode, wherein one terminal of the
third inductance is connected to one terminal of the second capacitor, another terminal of the third inductance is connected
to a cathode of the third diode, another terminal of the second capacitor is connected to an anode of the third diode, and
the second resonance circuit is coupled to the first resonance circuit for suppressing ripple;

wherein when the power transistor is turned on, an input voltage starts charging the first inductance, the first capacitor,
the second inductance, the third inductance and the second capacitor;

wherein when the power transistor is turned off, the first inductance proceeds charging and discharging via the first diode,
and the first capacitor and the second inductance impel a quick energy transfer to the second capacitor and the third inductance;
and

wherein when the semiconductor component is turned on, the first capacitor and the second inductance constitute a loop through
the semiconductor component.

US Pat. No. 9,506,864

METHOD FOR PREPARING GOLD NANOCLUSTER COMPOSITION

INDUSTRIAL TECHNOLOGY RES...

1. A method for preparing a gold nanocluster composition, comprising:
mixing a gold ion-containing solution and a reducing agent solution to obtain a first mixture liquid; and
heating the first mixture liquid to obtain a second mixture liquid,
wherein the second mixture liquid contains a gold nanocluster composition, and the gold nanoclusters are partially capped
by reducing agent, and wherein

when the step of heating the first mixture liquid is performed by microwave heating with a microwave power of 270 W to 450
W and the gold ions and the reducing agent have a molar ratio of 1:1 to 1:1.2, the gold nanocluster compositions have fluorescence
emission peaks at wavelength of 600-650 nm and 800-850 nm,

when the step of heating the first mixture liquid is performed by dry bath heating with a temperature of 100° C. to 200° C.
and the gold ions and the reducing agent have a molar ratio of 1:1.1 to 1:1.4, the gold nanocluster compositions have fluorescence
emission peaks at wavelength of 600-650 nm and 800-850 nm, and

when the step of heating the first mixture liquid is performed by microwave heating with a microwave power of 270 W to 450
W and the gold ions and the reducing agent have a molar ratio of 1:0.7 to 1:0.8, the gold nanocluster composition has a single
fluorescence emission peak at wavelength of 800-900 nm.

US Pat. No. 9,499,911

METHOD FOR FORMING METAL CIRCUIT, LIQUID TRIGGER MATERIAL FOR FORMING METAL CIRCUIT AND METAL CIRCUIT STRUCTURE

INDUSTRIAL TECHNOLOGY RES...

1. A liquid trigger material that is curable and suitable for forming a metal circuit, the liquid trigger material comprising:
an insulating gel comprised of a macromolecular material that is curable; and
a plurality of trigger particles comprised of a chelation, the trigger particles being activated when irradiated by a laser
having a first wavelength;

wherein, the trigger particles are distributed in the insulating gel, providing a liquid trigger material to be cured having
a viscosity of less than 10000 cP, and a dielectric constant between 2 and 6.5.

US Pat. No. 9,414,393

RESOURCE ALLOCATION METHOD FOR ALLOCATING RESOURCE BLOCKS TO SEVERAL USER EQUIPMENT

Industrial Technology Res...

1. A resource allocation method, adapted for a base station allocating a plurality of resource blocks to a plurality of user
equipment, the resource allocation method comprising:
calculating a plurality of transmission rates of the plurality of user equipment on the resource blocks that are not allocated
to the plurality of user equipment yet;

finding a plurality of consecutive resource block sets among the resource blocks being unallocated according to a predetermined
window size, wherein two adjacent consecutive resource block sets of the plurality of consecutive resource block sets comprise
at least one identical resource block;

finding a minimum transmission rate of each user equipment among the transmission rates for each user equipment for each of
the consecutive resource block sets;

finding a largest value and a second largest value corresponding to each of the consecutive resource block sets among the
minimum transmission rate corresponding to each user equipment;

calculating an absolute difference value between the largest value and the second largest value corresponding to each of the
consecutive resource block sets, and finding a maximum absolute difference value from the absolute difference value corresponding
to each consecutive resource block set; and

allocating the consecutive resource block set corresponding to the maximum absolute difference value to one specific user
equipment, wherein the specific user equipment is the user equipment corresponding to the largest value of the consecutive
resource block set being allocated, and the specific user equipment performs transmission at the corresponding minimum transmission
rate in the consecutive resource block set being allocated.

US Pat. No. 9,300,942

METHOD AND CONTROL SYSTEM FOR THREE-DIMENSIONAL VIDEO PLAYBACK USING VISUAL FATIGUE ESTIMATION

Industrial Technology Res...

1. A method for playing a three-dimensional video, comprising:
calculating a disparity velocity or a disparity acceleration for at least one continuous video in the three-dimensional video;
calculating a visual fatigue estimating value of a viewer according to the disparity velocity or the disparity acceleration,
wherein the step of calculating the visual fatigue estimating value comprises:

calculating a visual fatigue estimating value (fa) according to Formula (3), wherein Formula (3) is fa=f(DA), where fa is
a visual fatigue estimating value of the viewer after watching at each of time units in the at least one continuous video,
and DA is a disparity acceleration for each of the time units in the at least one continuous video; and

calculating an overall visual fatigue estimating value (Fa) according to Formula (4), wherein Formula (4) is Fa=f(fa, T),
where T is a playback time for the at least one continuous video, wherein the overall visual fatigue estimating value is calculated
according to Formula (6.8), where Formula (6.8) is Fa=?T1T2fa=?T1T2DSTdiRTWdVi, DSTdi is the disparity velocity, Wd is a disparity range weight, RT is a temporal weight, Vi is a disparity velocity weight, T1 is a start time for the at least one continuous video, and T2 is an end time for the at least one continuous video; and

controlling a subsequent playback of the three-dimensional video according to the visual fatigue estimating value.

US Pat. No. 9,300,231

OUTPUT CONTROL APPARATUS OF A MOTOR AND METHOD FOR CONTROLLING A CONTROLLER OF THE SAME

INDUSTRIAL TECHNOLOGY RES...

1. An output control apparatus of a motor, comprising:
a motor, connected with a controller;
a power supply, connected with the controller;
the controller comprising,
a DC current detector;
a power device, connected with the motor, the power supply and the DC current detector; and the DC current detector is to
feedback a current value;

a motor speed detector;
a stage-determining unit, connected with the DC current detector and the motor speed detector;
a rotor angle predictor;
a DC voltage detector; and
an angle lead/lag unit, connected with the stage-determining unit, the motor speed detector, the rotor angle predictor and
the DC voltage detector;\

wherein the controller has the power device to perform voltage control modulation under a circumstance of varying a motor
speed so as to modulate a recharging voltage at a DC bus to be within a specific range; in the case that the current value
is larger than a current of a protection mode, opening a three phase upper-arm switch, a U-phase switch, a V-phase switch
and a W-phase switch of the power device, and shorting a three-phase lower-arm switch, a U?-phase switch, a V?-phase switch
and a W?-phase switch of the power device.

US Pat. No. 9,159,944

WHITE ORGANIC LIGHT-EMITTING DIODES

INDUSTRIAL TECHNOLOGY RES...

1. A white organic light-emitting diode, comprising:
an anode;
a cathode;
a composite light-emitting layer formed between the anode and the cathode, wherein the composite light-emitting layer comprises
a first host layer, a second host layer, and a dye layer formed between the first host layer and the second host layer, wherein
the dye layer is divided into a plurality of sub-dye layers, and each sub-dye layer comprises a dye having an emission wavelength,
wherein the sub-dye layers are formed next to and in direct contact with each other;

a hole transport layer formed between the anode and the composite light-emitting layer; and
an electron transport layer formed between the composite light-emitting layer and the cathode.
US Pat. No. 9,777,273

SMALL INTERFERING RNA AND PHARMACEUTICAL COMPOSITION AND METHOD FOR INHIBITING GALECTIN-12 EXPRESSION AND/OR ENHANCING LIPOLYSIS CONTAINING THE SAME

INDUSTRIAL TECHNOLOGY RES...

1. A small interfering RNA (siRNA), consisting of a passenger strand and a guide strand,
wherein the sequence of the passenger strand comprises the sequence of SEQ ID NO. 7, and the sequence of the guide strand
comprises the sequence of SEQ ID NO. 8,

wherein the small interfering RNA is capable of inhibiting galectin-12 expression.

US Pat. No. 9,591,746

ELECTRONIC DEVICE PACKAGE, ELECTRONIC DEVICE STRUCTURE AND METHOD OF FABRICATING ELECTRONIC DEVICE PACKAGE

Industrial Technology Res...

1. An electronic device package, comprising:
a wire layer comprising a first surface and a second surface opposite to each other, and the second surface of the wire layer
having at least one coarse structure, wherein a portion of the second surface having the coarse structure has a greater roughness
than another portion of the second surface;

a rigid element disposed on the first surface of the wire layer, wherein a stiffness of the rigid element is greater than
a stiffness of the wire layer;

a projection area of one of the at least one coarse structure on the first surface of the wire layer overlaps an edge of the
rigid element; and

a molding layer disposed on the first surface of the wire layer to encapsulate the rigid element.

US Pat. No. 9,457,517

POWDER SHAPING METHOD AND APPARATUS THEREOF

INDUSTRIAL TECHNOLOGY RES...

1. A powder shaping method, comprises the following steps:
providing a powder on a target surface;
illuminating a laser beam to the powder to form a pre-treated powder;
illuminating an energy beam to the pre-treated powder to perform a shaping process; and
wherein the laser beam is from substantially an ultra-fast laser source and the threshold fluence of the laser beam working
on the powder is smaller than 6 J/cm2.

US Pat. No. 9,426,709

METHOD OF HANDLING ANCHOR-BASED MOBILITY MANAGEMENT

Industrial Technology Res...

1. A method of handling anchor-based mobility management in a communication system, the method comprising:
an access base station of a user equipment (UE) determining whether to establish an interface to a mobility management entity
(MME) at an anchor base station for the UE;

the access base station selecting at least one anchor base station for establishing the interface; and
the access base station requesting the at least one anchor base station to establish the interface for the UE.

US Pat. No. 9,227,841

APPARATUS INTEGRATING MICROELECTROMECHANICAL SYSTEM DEVICE WITH CIRCUIT CHIP AND METHODS FOR FABRICATING THE SAME

INDUSTRIAL TECHNOLOGY RES...

1. A method for fabricating an apparatus integrating a microelectromechanical system device with a circuit chip, comprising:
providing an SOI (Silicon on Insulator) wafer, wherein the SOI wafer comprises a device layer, an insulating layer and a handle
layer stacked in order;

etching from the device layer through the insulating layer so as to form a plurality of ring grooves and a plurality of pillars
disposed at the center of the ring grooves;

forming a plurality of first holes at the center of each of the pillars, wherein the first holes penetrate the insulating
layer and are filled with the conductive material;

etching the surface of the device layer so as to form a bottom of sealing ring, a plurality of bottoms of a plurality of supporting
bases and a plurality of bottoms of a plurality of bases;

etching the device layer to the insulating layer so as to form an etched pattern;
integrating the above-mentioned device layer having etched pattern with a circuit chip, wherein the bottom of the sealing
ring, the bottoms of the bases and the bottoms of the supporting bases are connected to a plurality of metal bonding areas
of the circuit chip;

forming a plurality of second holes on the handle layer;
forming at least one sensing element, a plurality of springs, a sealing ring, the at least one bases and the at least one
supporting bases; and

covering an isolation layer on a surface of the handle layer so as to form a hermetic chamber surrounding the at least one
sensing element and an active surface of the circuit chip.

US Pat. No. 9,136,516

HYBRID MATERIALS USING IONIC PARTICLES

Industrial Technology Res...

1. A separator substrate, comprising:
a substrate having a bulk portion and a surface portion, the surface portion having at least a first porous area with a net
negative charge and at least a second porous area with a net positive charge;

ionic particles coupling to at least a part of each one of the first porous area and the second porous area, the ionic particles
including first ionic particles having a net positive charge and coupling to the first porous area, and second ionic particles
having a net negative charge and coupling to the second porous area; and

a graft agent coupled with the ionic particles, the graft agent comprising at least one of primary amine-containing silane,
secondary amine-containing silane, tertiary amine-containing silane, quaternary amine-containing silane, carboxylic containing
silane, sulfonate containing silane, or phosphate-containing silane,

wherein the coupling between the part of the at least one porous area and the ionic particles results in at least one of electrochemical
performance, chemical stability, thermal stability, wettability, and mechanical strength of the separator substrate, and

at least a portion of the ionic particles are coupled to interior walls of pores of the porous area.

US Pat. No. 9,127,156

FLAME-RETARDANT THERMOPLASTIC STARCH MATERIAL, FLAME-RETARDANT THERMOPLASTIC STARCH-BASED BIO-COMPOSITE, AND METHOD FOR MANUFACTURING THE SAME

Industrial Technology Res...

1. A flame-retardant thermoplastic starch-based bio-composite, comprising:
(A) 5 to 40 parts by weight of a flame-retardant thermoplastic starch material, wherein the flame-retardant thermoplastic
starch material comprises

(A1) 100 parts by weight of starch;
(A2) 5 to 15 parts by weight of polyol; and
(A3) 5 to 30 parts by weight of organic phosphonate flame-retardant, wherein the organic phosphonate flame-retardant has the
following formula (I):


wherein X is a trivalent aliphatic hydrocarbon radical containing 3 to 12 carbon atoms; R1 and R7 are independently C1 to C8 alkyl; and n is 0 or 1;

(B) 60 to 90 parts by weight of thermoplastic polymer, wherein the thermoplastic polymer comprises polycarbonate (PC), acrylonitrile
butadiene styrene (ABS), polybutylene terephthalate (PBT), or combinations thereof; and

(C) 3 to 10 parts by weight of impact modifier, wherein the impact modifier is a rubber system having a core-shell structure,
and a shell portion of the rubber system is polymethylmethacrylate (PMMA), and a core portion of the rubber system comprises
acrylic rubber, silicone-acrylic rubber, or combinations thereof.

US Pat. No. 9,064,039

SYSTEM, METHOD AND RECORDING MEDIUM FOR CALCULATING PHYSIOLOGICAL INDEX

Industrial Technology Res...

1. A method for calculating a physiological index, applicable to an electronic device, the method comprising:
dividing a physiological data sequence into a plurality of windows, wherein each window comprises a data segment of the physiological
data sequence;

analyzing the data segment in each window to obtain metadata that represents data characteristics of the data segment;
updating the metadata comprising the data characteristics of all data segments in the windows up to a previous window by using
the metadata corresponding to one of the windows to obtain the metadata comprising the data characteristics of all data segments
in the windows up to a current window; and

calculating a physiological index by using the updated metadata,
wherein the step of analyzing the data segment in each window to obtain the metadata that represents the data characteristics
of the data segment comprises:

using a plurality of scales to perform a coarse-graining procedure on the data segment in each window to obtain a data sequence
under the scales and using the data sequence as metadata that represents the characteristics of the data segment,

wherein the step of updating the metadata comprising the data characteristics of all data segments in the windows up to the
previous window by using the metadata corresponding to one of the windows to obtain the metadata comprising the data characteristics
of all data segments in the windows up to the current window comprises:

as for the data sequence of each window under each scale, recording metadata corresponding to one of the windows by using
a multi-dimensional sparse matrix; and

cumulating metadata corresponding to other windows in sequence to the multi-dimensional sparse matrix, so that the multi-dimensional
sparse matrix comprises the metadata comprising the data characteristics of all the data segments up to the current window.

US Pat. No. 9,507,866

GEOGRAPHICAL LOCATION RENDERING SYSTEM AND METHOD AND COMPUTER READABLE RECORDING MEDIUM

INDUSTRIAL TECHNOLOGY RES...

1. A geographical location rendering method performed by an electronic device, executed in a geographical location rendering
system for identifying a semantic region, the geographical location rendering method comprising:
performing a density clustering on a plurality of user generated contents having respective information of geographical location
name, to generate a plurality of region candidates;

performing a name extraction on the region candidates respectively, wherein if a common region name is extracted from the
region candidates, the common region name is used as a name of the semantic region, wherein the step of performing a name
extraction further comprises:

attempting to obtain a possible name for the region candidate;
determining whether the possible name of the region candidate is obtained;
when no possible name is obtained, adjusting an extraction criterion; and
when the extraction criterion is non-adjustable, determining the name extraction as failed and discarding the region candidate;
and

detecting a region scope of the region candidates as a location scope of the semantic region according to a spatial density
analysis.

US Pat. No. 9,415,464

LASER MACHINING SYSTEM UTILIZING THERMAL RADIATION IMAGE AND METHOD THEREOF

INDUSTRIAL TECHNOLOGY RES...

1. A laser machining method applicable for a laser machining system, the laser machining method comprising:
projecting a laser beam onto a work piece via a first light path;
detecting thermal radiation from the work piece via a second light path to obtain a thermal radiation image, wherein the second
light path is different from the first light path;

calculating a temperature centroid of the thermal radiation image, comprising:
calculating a corresponding temperature value for a pixel among a plurality of pixels of the thermal radiation image according
to a grayscale of the pixel; and

calculating the temperature centroid according to a corresponding coordinate and the corresponding temperature value of each
pixel among the plurality of pixels; and

adjusting a present distance to a working distance by controlling the laser machining system according to the temperature
centroid, wherein the present distance is between the laser machining system and the work piece;

wherein the temperature centroid is calculated by two equations, and the two equations are:

wherein XM is a x-axis coordinate value of the temperature centroid, YM is a y-axis coordinate value of the temperature centroid, n is a total number of the plurality of pixels, xi and yi are respectively a x-axis coordinate value and a y-axis coordinate value of a ith pixel of the plurality of pixels, and Ti is the corresponding temperature value of the ith pixel of the plurality of pixels.

US Pat. No. 9,378,513

ELECTRONIC SHELF LABEL CONTROLLING SYSTEM, ELECTRONIC SHELF LABEL INSTALLING METHOD AND ELECTRONIC SHELF LABEL UPDATING METHOD

INDUSTRIAL TECHNOLOGY RES...

1. An electronic shelf label controlling system, comprising:
a first electronic shelf label disposed on a shelf;
a controlling device storing a label location table, the label location table recording a relationship between a label identifying
information and a label location information of the first electronic shelf label;

a deploying device used for obtaining the label identifying information; and
a communication gateway device used for communicating between the controlling device, the deploying device and the first electronic
shelf label;

wherein the controlling device further obtains a location code of the first electronic shelf label by performing a mathematical
interpolation on a second electronic shelf label and a third electronic shelf label if the second electronic shelf label and
the third electronic shelf label are disposed at two sides of the first electronic shelf label, the location code of the first
electronic shelf label is between a location code of the second electronic shelf label and a location code of the third electronic
shelf label, and a shelf code of the second electronic shelf label and the location code of the first electronic shelf label
are combined to be the label location information.

US Pat. No. 9,308,603

SOLDER, SOLDER JOINT STRUCTURE AND METHOD OF FORMING SOLDER JOINT STRUCTURE

Industrial Technology Res...

1. A solder joint structure, comprising:
a zinc-based material, having a surface, wherein the zinc-based material comprises copper; and
an intermetallic layer, consisting of an alloy of zinc and noble metal, wherein the noble metal comprises gold, silver, or
palladium, and the intemetallic layer completely covers the surface of the zinc-based material.

US Pat. No. 9,299,008

UNSUPERVISED ADAPTATION METHOD AND AUTOMATIC IMAGE CLASSIFICATION METHOD APPLYING THE SAME

INDUSTRIAL TECHNOLOGY RES...

1. An unsupervised adaptation method applied to an electronic device, comprising:
implementing a processor to perform the following steps;
grouping a plurality of non-manually-labeled observation data into a plurality of groups;
setting a respective hypothesis label to each of the groups according to a classifier;
obtaining a shortest distance between each member of the observation data of each of the groups and a plurality of the members
of the sample set of the hypothesis label, and obtaining a minimum of a plurality of distances between the member of the observation
data and a plurality of members of representation sets of other hypothesis labels;

determining whether each member of the observation data in the groups is suitable for adjusting the classifier according to
a ratio of a shortest distance between the observation data and the hypothesis label to a minimum of a plurality of distances
between the observation data and other hypothesis labels, and setting the observation data which are determined as being suitable
for adjusting the classifier as a plurality of adaptation data;

predicting at least one adjustment parameter of the classifier according to the hypothesis labels and the adaptation data,
to adjust the classifier; and

iterating the above steps to adjust the classifier.

US Pat. No. 9,159,788

NITRIDE SEMICONDUCTOR STRUCTURE

Industrial Technology Res...

1. A nitride semiconductor structure, comprising:
a silicon substrate;
a nucleation layer, disposed on the silicon substrate, wherein the silicon substrate comprises a surface in contact with the
nucleation layer and a plurality of cavities, and the cavities are concave on the surface;

a buffer layer, disposed on the nucleation layer, wherein the buffer layer comprises n sub-buffer layers where n?2, and each
of the sub-buffer layers has island structures; and

a nitride semiconductor layer, disposed on the buffer layer.

US Pat. No. 9,067,393

METHOD OF TRANSFERRING CARBON CONDUCTIVE FILM

INDUSTRIAL TECHNOLOGY RES...

1. A method for transferring a carbon conductive film, comprising:
providing a first substrate;
forming an inorganic oxide layer on a surface of the first substrate, wherein the inorganic oxide layer has a total surface
energy of 30 mJ/m2 to 75 mJ/m2, and a dispersive surface energy to the total surface energy ratio of 0.4 to 0.8;

coating a carbon dispersion on the inorganic oxide layer;
drying the carbon dispersion to form a carbon conductive film on the inorganic oxide layer;
dipping the carbon conductive film into a solvent to separate the carbon conductive film and the inorganic oxide layer; and
attaching the separated carbon conductive film to a second substrate, thereby transferring the carbon conductive film onto
the second substrate.

US Pat. No. 9,166,254

GEL POLYMER ELECTROLYTE AND LITHIUM POLYMER BATTERY

Industrial Technology Res...

1. A gel polymer electrolyte, having a polymer impregnated with a nonaqueous electrolyte solution to form the gel polymer
electrolyte, wherein the polymer is represented by the following general formula (I):

wherein n?1, m?1 and n+m=2˜500; X is independently selected from NH, N, S, or P; Y is nitrogen-containing five-membered heterocyclic
group or nitrogen-containing six-membered heterocyclic group; R1 is independently selected from —CH2NHCH2—, —C2H4NHC2H4—, —C(O)CH2—, —CH2OCH2—, —C(O)—, —O—, —O—O—, —S—, —S—S—, —S(O)—, —CH2S(O)CH2—, —(O)S(O)—, —CH2(C6H4)CH2—, —CH2(C6H4)O—, —(CH2CH(CH3)O)a— where a=1˜70, —(CH2CH2O)b— where b=1˜100, —O(C6H4)C(CF3)2(C6H4)O—, substituted or non-substituted phenylene, substituted or non-substituted biphenylene, or —(CH2CH2)d— where d=1˜4, or any of the following groups:


R3 is —(CH2CH2O)—, phenylene or alkylene, and (a?+b?+d?) is 5˜6; and R2 is selected from any of the following groups:


US Pat. No. 9,999,045

MANAGEMENT METHOD FOR WIRELESS NETWORK AND NETWORK MANAGEMENT NODE

INDUSTRIAL TECHNOLOGY RES...

1. A wireless network management method for a wireless network, the wireless network management method including:evaluating a length parameter of a slotframe by considering an advertisement requirement and/or a data transmission requirement of the wireless network;
adjusting the length parameter of the slotframe to be relatively prime to a total number of available channels, including adding a blank timeslot into the slotframe step by step, until the length parameter of the slotframe is relatively prime to the total number of available channels; and
assigning at least one timeslot within the slotframe for matching the advertisement requirement and/or the data transmission requirement, and advertising a timeslot assignment of the slotframe.

US Pat. No. 9,526,092

METHOD OF ALLOCATING RESOURCES FOR SCHEDULING REQUEST AND USER EQUIPMENT USING THE SAME AND A CONTROL NODE USING THE SAME

Industrial Technology Res...

1. A method of adjusting a dedicated scheduling request (D-SR) period which is a semi-persistently configured D-SR resource
used to transmit a scheduling request (SR), adapted for a user equipment (UE), and the method comprises:
establishing, by the UE, a first connection in order to transmit uplink data;
transmitting, by the UE, through the first connection an assisting information after establishing the first connection to
adjust the D-SR period; and

obtaining, by the UE, a second D-SR period after transmitting the assisting information,
wherein there is a predefined time window during which a random access is not permitted within the both D-SR period and the
second D-SR period,

wherein further comprising:
transmitting a first message which includes a request for a temporary SR (T-SR) resource according to a piggyback technique;
and

transmitting the SR using the T-SR resource.

US Pat. No. 9,347,838

CAPACITIVE SHEAR FORCE SENSOR AND METHOD FOR FABRICATING THEREOF

Industrial Technology Res...

1. A capacitive shear force sensor, comprising:
a first electric field shielding layer, having a lower surface;
a second electric field shielding layer, having an upper surface, wherein the second electric field shielding layer is disposed
under the first electric field shielding layer;

a driving electrode, disposed under the lower surface of the first electric field shielding layer, and disposed between the
first electric field shielding layer and the second electric field shielding layer;

a first sensing electrode, disposed on the upper surface of the second electric field shielding layer, and disposed between
the driving electrode and the second electric field shielding layer, wherein the first sensing electrode and the driving electrode
form a first capacitor;

a second sensing electrode, disposed on the upper surface of the second electric field shielding layer, and disposed between
the driving electrode and the second electric field shielding layer, wherein the second sensing electrode does not contact
the first sensing electrode, and the second sensing electrode and the driving electrode form a second capacitor, wherein when
a shear force is applied to the driving electrode, an overlapped area size of electrode plates of one of the first capacitor
and the second capacitor is decreased in response to the shear force, and an overlapped area size of electrode plates of another
one of the first capacitor and the second capacitor is increased in response to the shear force; and

a dielectric layer, disposed between the driving electrode and the first sensing electrode, and disposed between the driving
electrode and the second sensing electrode.