SATELLITE COMMUNICATIONS SYSTEMS

Brand	Owner (click to sort)	Address	Description
ADVENT	VISLINK TECHNOLOGIES, INC.	240 S. PINEAPPLE AVENUE SUITE 701 SARASOTA FL 34236	Satellite communications systems, namely, antennas, transmitters, upconverters, receivers, demodulators, and redundancy system controllers for use in the broadcast, media, law enforcement, public safety and defense industries;
AIR PRO	VISLINK TECHNOLOGIES, INC.	240 S. PINEAPPLE AVENUE SUITE 701 SARASOTA FL 34236	Satellite communications systems, namely, antennas, transmitters, upconverters, receivers, demodulators, and redundancy system controllers;
SPACEWATCH	Hoverink International Holdings, Inc.	10250 Constellation Blvd, Suite 2320 Los Angeles CA 90067	Satellite communications systems; Satellite communications systems comprising satellites, processors and receivers; electronic surveillance systems; electronic surveillance systems, comprising computer hardware for IP video surveillance, satellite-based surveillance systems; devices for passively and actively monitoring incoming objects and conveying information about the objects' characteristics to decision makers, namely remote satellite and video monitoring systems consisting primarily of satellite-based atmospheric monitoring equipment, cameras and video monitoring for recording and transmitting images to a remote location; electric and electronic video surveillance installations;SPACE WATCH;
TSAT	Commercial Telecommunications Corporation	Bldg. 604 3130 Skyway Dr. Santa Maria CA 93454	SATELLITE COMMUNICATIONS SYSTEMS, USED FOR THE TRANSMISSION OF DATA, VOICE AND VIDEO COMMUNICATIONS;INSTRUCTION MANUALS;TERMINAL SATELLITE;
TSAT	Commercial Telecommunications Corporation	Bldg. 604 3130 Skyway Dr. Santa Maria CA 93454	SATELLITE COMMUNICATIONS SYSTEMS, USED FOR THE TRANSMISSION OF DATA, VOICE AND VIDEO COMMUNICATIONS;INSTRUCTION MANUALS;TERMINAL SATELLITE;
	Where the owner name is not linked, that owner no longer owns the brand

Technical Examples

A hybrid satellite communications system provides communications, particularly Internet access, to computer users. The hybrid satellite communications system includes a satellite system and a terrestrial communications system. The satellite system includes two transceivers. The first transceiver receives and transmits a first set of signals received from the terrestrial communications system to a plurality of user units. In reverse fashion, the satellite systems second transceiver receives a second set of signals in a second frequency band from the user units and transmits those signals back to the terrestrial communications system. The first set of signals (downlink signals) are of much higher frequency than the second set of signals (uplink signals). Preferably, the first set of signals are relayed by a Direct Broadcast System (DBS) satellite in a frequency band between 12.2 GHz and 12.9 GHz, while the second set of signals are relayed by a Mobile Satellite System (MSS) satellite operating between 1.0 GHz and 3.0 Ghz, or relayed by a terrestrial node operating between 0.8 and 2.0 Ghz. The differences in frequency between the first set of signals and second set of signals is considered optimal for the transmission and receipt of communications between a computer user with the Internet. Moreover, the present invention is capable of using the present communications infrastructures dedicated to the satellite transmission of television via DBS satellites, satellite cellular communications via MSS satellites, and radio communications via terrestrial cellular systems.