System For Concurrent Mobile Two-Way Data Communications And TV Reception
First Claim
1. A mobile in-motion terminal system for concurrently communicating by at least one antenna with (1) one satellite disposed at a geostationary orbital location and providing both TV broadcast and two-way data communications and/or (2) at least two satellites located at substantially the same geo-stationary orbital position, with one satellite providing TV broadcast and another satellite providing two-way data communications, said terminal system comprising:
- a transmit/receive system coupled to said antenna and comprising a transmitter and receiver operative to provide two-way type data communication using a first frequency band with said one satellite, and a receive system coupled to said antenna and comprising a receiver operative to receive TV signals from said same or other satellite;
wherein the antenna is adapted for integration into a roof of a mobile vehicle and adjustable in both azimuth and elevation or the antenna is mountable on a mobile vehicle and is adjustable in at least an azimuth wherein the antenna comprises at least one transmit antenna array or receive antenna array.
8 Assignments
0 Petitions
Accused Products
Abstract
A low profile mobile in-motion antenna and transmit/receive terminal system for two-way “VSAT” type satellite communication using FSS service, preferably in Ku band, supporting at the same time TV signal reception from the same satellite or a separate DBS satellite located at the same or nearby geo-stationary orbital position.
80 Citations
22 Claims
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1. A mobile in-motion terminal system for concurrently communicating by at least one antenna with (1) one satellite disposed at a geostationary orbital location and providing both TV broadcast and two-way data communications and/or (2) at least two satellites located at substantially the same geo-stationary orbital position, with one satellite providing TV broadcast and another satellite providing two-way data communications, said terminal system comprising:
- a transmit/receive system coupled to said antenna and comprising a transmitter and receiver operative to provide two-way type data communication using a first frequency band with said one satellite, and a receive system coupled to said antenna and comprising a receiver operative to receive TV signals from said same or other satellite;
wherein the antenna is adapted for integration into a roof of a mobile vehicle and adjustable in both azimuth and elevation or the antenna is mountable on a mobile vehicle and is adjustable in at least an azimuth wherein the antenna comprises at least one transmit antenna array or receive antenna array. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
- a transmit/receive system coupled to said antenna and comprising a transmitter and receiver operative to provide two-way type data communication using a first frequency band with said one satellite, and a receive system coupled to said antenna and comprising a receiver operative to receive TV signals from said same or other satellite;
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21. A method of providing in-motion mobile concurrent communication for direct broadcast satellite television reception and two-way data communication, comprising:
- receiving at an antenna coupled to a mobile terminal mounted on a vehicle in motion at least one of direct broadcast television signals and data communication signals transmitted by satellite from substantially the same orbital location in geostationary orbit;
identifying at said mobile terminal said orbital location;
adjusting an antenna in at least one of azimuth and elevation so that it is pointed to said orbital location while said vehicle is in motion; and
transmitting data to said orbital location from said antenna while said vehicle is in motion. - View Dependent Claims (22)
- receiving at an antenna coupled to a mobile terminal mounted on a vehicle in motion at least one of direct broadcast television signals and data communication signals transmitted by satellite from substantially the same orbital location in geostationary orbit;
Specification