US Pat. No. 10,602,521

HIGH SPEED WIRELESS DATA NETWORK

AirVine Scientific, Inc.,...

1. A communication network, comprising:a plurality of nodes capable of wirelessly communicating with each other by way of millimeter-wave signals, wherein the nodes are configured to communicate with each other by transmitting or receiving one or more millimeter-wave beams through a physical obstruction that attenuates the millimeter-wave beams passing therethrough, wherein each of the nodes includes:
a first phased array antenna configured to transmit a first millimeter-wave beam through the physical obstruction;
a second phased array antenna configured to receive a second millimeter-wave beam through the physical obstruction; and
wherein the first phased array antenna and the second phased array antenna are each configured, respectively, to mitigate path loss experienced by the first and second millimeter-wave beams passing through the physical obstruction.

US Pat. No. 10,560,178

MILLIMETER WAVE COMMUNICATION SYSTEM FEATURING ADJUSTABLE SUPPORT

AIRVINE SCIENTIFIC, INC.,...

1. A system, comprising:a first support;
a second support;
a first phased array antenna mounted to the first support so that the first phased array antenna faces away from the second support;
a second phased array antenna mounted to the first support so that the second phased array antenna faces toward the second support;
a third phased array antenna mounted to the second support so that the third phased array antenna faces toward the first support;
a fourth phased array antenna mounted to the second support so that the fourth phased array antenna faces away from the first support;
a first controller mounted to the first support, configured to pass data between the first phased array antenna and the second phased array antenna;
a first local wireless interface, mounted to the first support and operatively coupled to the controller, configured to wirelessly communicate at least a portion of the data to a first group of one or more local devices;
a second controller mounted to the second support, configured to pass data between the third phased array antenna and the fourth phased array antenna;
a second local wireless interface, mounted to the second support and operatively coupled to the second controller, configured to wirelessly communicate at least a portion of the data to a second group of one or more local devices; and
a pivot to allow at least one of the first support or the second support to rotate;
wherein the second phased array antenna and third phased array antenna are configured to unidirectionally communicate millimeter wave signals from the second phased array antenna to the third phased array antenna;
wherein the second phased array antenna and third phased array antenna are configured to communicate the millimeter wave signals through an obstruction that attenuates the millimeter wave signals.

US Pat. No. 10,454,562

MILLIMETER WAVE COMMUNICATIONS THROUGH OBSTRUCTIONS

AirVine Scientific, Inc.,...

1. An apparatus, comprising:a panel having a first side opposing a second side;
a first millimeter wave transmitter circuit mounted to the panel;
a first phased array antenna mounted on the first side of the panel and operatively coupled to the first millimeter wave transmitter circuit, adapted to emit a first millimeter wave beam within a first frequency band;
a first millimeter wave receiver circuit mounted to the panel;
a second phased array antenna mounted on the first side of the panel and operatively coupled to the first millimeter wave receiver circuit, adapted to receive a second millimeter wave beam within a second frequency band;
a second millimeter wave transmitter circuit mounted to the panel;
a third phased array antenna mounted on the second side of the panel and operatively coupled to the second millimeter wave transmitter circuit, adapted to emit a third millimeter wave beam through an obstruction, the third millimeter wave beam within the second frequency band;
a second millimeter wave receiver circuit mounted to the panel;
a fourth phased array antenna mounted on the second side of the panel and operatively coupled to the second millimeter wave receiver circuit, adapted to receive a fourth millimeter wave beam through the obstruction, the fourth millimeter wave beam within the first frequency band; and
at least one controller adapted to transfer data between the second millimeter wave receiver circuit and the first millimeter wave transmitter circuit and to transfer data between the first millimeter wave receiver circuit the second millimeter wave transmitter circuit;
wherein the first frequency band and the second frequency band are each above 30 GHz.