| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 455130200 | With synchronizing of satellites or system | 16 |
| 20090156117 | HIGH RELIABILITY SATELLITE NETWORK DELIVERY - A communication satellite comprises at least one antenna configured to communicate with at least one ground terminal over a first communication link in a first frequency band and a second communication link in a second frequency band. The first communication link and the second communication link are for communicating the same information. A satellite communication system comprises a first satellite having a first antenna configured to communicate with a ground terminal over a first communication link in a first frequency band and a second communication link in a second frequency band. The satellite communication system further comprises a second satellite having a second antenna configured to communicate with the ground terminal over a third communication link in the first frequency band and a fourth communication link in the second frequency band. The first communication link and the second communication link are for communicating the same information. The third communication link and the fourth communication link are for communicating the same information | 06-18-2009 |
| 20100062706 | ANTENNA AND SATELLITE ALIGNMENT USING BEAM PROJECTIONS - Disclosed is a satellite beam pointing system that uses color encoded signals from subscribers to align antennas on a satellite and to align the satellite. Subscribers detect the signal strength and signal-to-noise ratio of signals that are transmitted from the satellite. The values of the signal strength and signal-to-noise ratio data are encoded in signals that are transmitted back to a ground station that color encodes the data and graphically displays the signal strength and signal-to-noise ratio of the subscriber received signals. The actual beam projection can then be determined and the satellite antennas moved, so that the actual beam projection coincides with the intended beam projection. Also, the satellite can be properly oriented using this technique. | 03-11-2010 |
| 20100087141 | EPHEMERIS-BASED SYNCHRONIZATION FOR MESH SATELLITE COMMUNICATIONS - Methods, systems, and devices are described for synchronization in mesh satellite communications. The arrival time of the gateway signal may be used to set a start of receive frame time for a terminal. A received control signal from the gateway may then be used to set a start of transmit frame time for the user terminal. The distance between the satellite and the gateway may change. Ephemeris data, various collections of terminal measurements, or terminal sync bursts may be used to modify start of transmit frame or start of receive frame settings for the terminal or gateway. | 04-08-2010 |
| 20110028088 | SYSTEM AND METHOD FOR ENABLING ULTRA SMALL APERTURE COMMUNICATION ANTENNA USING SPECTRAL REPLICATION AND COHERENT FREQUENCY AND PHASE COMBINING - A system for enabling use of ultra-small aperture terminals in satellite communications is provided. The system comprises a transmitter configured to receive an input signal having information, a bandwidth, and an amplitude, replicate the input signal into two or more replications of the input signal, convert each of the two or more replications to have a frequency tuned to two or more corresponding satellite transponders while maintaining the bandwidth and all the information of the input signal, and combine the two or more replications into a single uplink signal. A transmit antenna is configured to transmit the uplink signal to the two or more satellite transponders. | 02-03-2011 |
| 20110183606 | SYNCHRONIZING A RADIO NETWORK WITH END USER RADIO TERMINALS - A wireless communications device comprises a communication receiver and a positioning system receiver in the wireless mobile communication device. An absolute time signal is received at the positioning system. A network time signal is received at the communication receiver of the wireless mobile communication device. A controller is in signal communication with the position system receiver and the communication receiver. The controller is configured to determine an offset of the absolute time signal from the network time signal and generates a timing mark. The timing mark is tagged by the positioning system receiver with an internal clock value wherein the timing mark has a known relationship with the absolute time signal. A memory stores the offset of the absolute time signal from the network time signal. A transmitter in the wireless mobile communication device transmits the offset for receipt by another wireless mobile communication device. | 07-28-2011 |
| 20120040608 | NEAR-FIELD COMMUNICATION (NFC) SYSTEM PROVIDING LOW POWER PEER-TO-PEER RECOGNITION MODE AND RELATED METHODS - A near-field communication (NFC) system may include a plurality of NFC devices each including an NFC circuit configured to wirelessly communicate using an NFC communications protocol, and a processor coupled to the NFC circuit. The processor may be configured to synchronize an internal timing signal to an external timing signal, cycle power to the NFC circuit to periodically switch the NFC circuit between a peer-to-peer recognition state and a low power state based upon the synchronized internal timing signal, and initiate peer-to-peer NFC communications with another one of the plurality of NFC devices when in range thereof and upon being switched to the peer-to-peer recognition state therewith. | 02-16-2012 |
| 20120156987 | WIRELESS COMMUNICATION SYSTEM, WIRELESS BASE STATION, CONTROL METHOD, AND CONTROL DEVICE - Each of the plurality of wireless base stations determines whether the accuracy of a synchronizing signal generated at a corresponding synchronizing signal generation unit is below a predetermined level, and when the accuracy of synchronizing signal is below the predetermined level, refers to the management unit to determine whether there is, among other wireless base stations arranged adjacent to its own station, a wireless base station connected to a synchronizing signal generation unit differing from its own connected synchronizing signal generation unit, and when there is a wireless base station connected to a synchronizing signal generation unit differing from its own connected synchronizing signal generation unit, reducing its own transmission power. | 06-21-2012 |
| 20120178363 | INTER-SATELLITE CROSSLINK COMMUNICATIONS SYSTEM, APPARATUS, METHOD AND COMPUTER PROGRAM PRODUCT - A communications system, apparatus, method, and computer program product for inter-satellite and inter-spacecraft crosslinks (ISL) with non-ISL optimized antennas where at least one component of the communications system has the potential energy to go into space. The system includes a mobile communications platform that includes an ISL antenna configured to transmit information through a non-ISL antenna of another communications platform. The non-ISL antenna does not track a trajectory of the mobile communications platform. The mobile communications platform includes a controller configured to determine a location of the mobile platform; determine whether the non-ISL antenna is within communications range; and prepare a signal for relayed transmissions through a non-ISL antenna to another communications platform in a signal format that is decipherable by this other communications platform. | 07-12-2012 |
| 20120264371 | APPARATUS AND METHOD FOR CONTROLLING TIME SYNCHRONIZATION BETWEEN BASE STATIONS - Provided are an apparatus and a method for controlling time synchronization between base stations when a receiving state of a satellite signal is poor. The present invention provide an apparatus and a method for controlling time synchronization between base stations that controls time synchronization between base stations based on reliability about time synchronization information of each base station. | 10-18-2012 |
| 20120276842 | WIRELESS COMMUNICATIONS DEVICE PROVIDING TEMPERATURE-COMPENSATED CLOCK CORRECTION FEATURES AND RELATED METHODS - A wireless communications device may include a portable housing and a temperature-compensated clock circuit carried by the portable housing. The device may further include a wireless receiver carried by the portable housing for receiving timing signals, when available, from a wireless network, and a satellite positioning clock circuit carried by the portable housing. A clock correction circuit may be carried by the portable housing for correcting the temperature-compensated clock circuit based upon timing signals from the wireless network when available, and storing historical correction values for corresponding temperatures. The clock correction circuit may also correct the temperature-compensated clock circuit based upon the stored historical correction values when timing signals are unavailable from the wireless network, and correct the satellite positioning clock based upon the temperature-compensated clock circuit. | 11-01-2012 |
| 20120309294 | METHOD AND SYSTEM FOR PROVIDING TIMING AND FREQUENCY SYNCHRONIZATION FOR SATELLITE DIVERSITY - An approach facilitates synchronization by providing: (i) a method to analyze the two-satellite synchronization problem in time-frequency domain; and (ii) a two-stage estimation method to accomplish timing and frequency synchronization. The embodiment facilitates satellite diversity. The embodiment applies to a system involving two or more geosynchronous satellites. | 12-06-2012 |
| 20130065514 | Advanced Timing and Time Transfer for Satellite Constellations Using Crosslink Ranging and an Accurate Time Source - A system, method, and apparatus for advanced timing and time transfer for satellite constellations using crosslink ranging and an accurate time source are disclosed herein. In particular, the present disclosure relates generally to systems for providing improved positioning, navigation, and/or timing information for oscillator calibration and more specifically, to use at least one satellite with accessibility to an accurate time source to calibrate the local oscillator on a crosslink paired satellite. In at least, one embodiment, time synchronization on a subset of satellites with crosslinking capabilities is used to distribute time through a network of crosslinked satellites. | 03-14-2013 |
| 20130189922 | TIME SYNCHRONIZATON OF NETWORK SUBSCRIBERS - A more simple and robust time synchronization of network subscribers compared to solutions known in the state of the art is provided by a device for time synchronization of network subscribers of a network based on satellites, having at least one satellite antenna connected to a receiving unit receiving a satellite signal containing time information. An electronic system that obtains the time from the satellite signal is connected to a time server with a network connection for the synchronization of the network subscribers using a network protocol. The complexity of the device is reduced and the common coaxial infrastructure between the receiving unit and the time server is removed for the satellite signal and replaced by a robust infrastructure. | 07-25-2013 |
| 20140187144 | BASE STATION AND CLOCK SYNCHRONIZATION METHOD THEREOF - An enhanced base station and clock synchronization method are provided. The method includes scanning to discover a satellite transmitting a satellite signal and a master base station providing clock synchronization signal, entering, when a satellite having a signal that fulfills predetermined conditions is found, a master mode for receiving the satellite signal to acquire clock synchronization and transmitting a clock synchronization signal to at least one slave base station, and entering, when no satellite having a signal that fulfills the predetermined conditions is found, a slave mode for receiving the clock synchronization signal from the master base station to acquire clock synchronization. The method allows the base station to switch between the master and slave modes dynamically according to variation of the communication environment, resulting in efficient clock synchronization. | 07-03-2014 |
| 20140273815 | POWER BOOSTER IN AN MEO SETTING - A customer satellite terminal provides seamless hand-off from a descending satellite to an ascending satellite in an equatorial MEO constellation at RF. The hand-off from the descending satellite to the ascending satellite is conducted when the propagation delay from the ascending satellite and the descending satellite are equal, by aligning first and second amplitudes, first and second frequency offsets, and first and second phases. | 09-18-2014 |
| 20150341109 | SATELLITE COMMUNICATION SYSTEM WITH TIME-MULTIPLEXED COMMUNICATION FROM SPOT BEAM DEFINED SUB-REGIONS - A communication system includes a satellite and a ground station. The satellite is configured to preferentially receive signals from each of a plurality of sub-regions within a region of communication of the satellite. The ground station is configured to determine a location of the ground station, determine in which of the sub-regions that the ground station resides based on the location, and transmit a signal to the satellite during a time-interval assigned to the sub-region. The ground stations time-multiplex the transmission of signals from various ground stations to the satellite based on which sub-region of the larger region (e.g. the continental United States or CONUS) that the ground station resides. The time multiplexing is such that ground stations in one region are not transmitting signals to the satellite during the same time interval as ground stations in adjacent sub-regions. | 11-26-2015 |
