Patent application number | Description | Published |
20080247444 | System and method for multi-source communications - A system and method of multi-source communications, including a source provider, a transmitter, a receiver, a summing device, a plurality of delay devices, and a switch. The source provider provides a signal including a first and second signal. The transmitter is in communication with the source provider and the receiver. The receiver is in communication with the transmitter. The summing device combines the first and second signals received by the receiver. The delay device delays at least one of the first and second signals. The switch forms a bypass, such that at least one of the first and second signals bypasses one of the plurality of delay devices. | 10-09-2008 |
20080279300 | System and method of transmitting and receiving satellite digital radio signals over an odd number of frequency slots - A system and method for transmitting and receiving data which includes at least one satellite, at least one transmitter in communication with the at least one satellite, and at least one receiver in communication with the at least one satellite. The transmitter modulates source data into a first modulated signal using a first modulation and a second modulated signal using a second modulation, and transmits the first and second modulated signals over an odd number of frequency slots to the satellite. The receiver receives the first and second modulated signals and demodulates at least one of the first and second modulated signals. | 11-13-2008 |
20090059783 | Communication system and method of receiving high priority signals and low priority signals - A communication system and method of communicating signals to a plurality of different types of receivers is provided. The communication system includes at least one transmitter that transmits a high priority signal and a low priority signal that are hierarchically modulated and transmitted as a single frequency network. At least one satellite receives and re-transmits at least one of the high priority and low priority signals. At least one of the plurality of receivers include a processor that performs the steps of storing the hierarchically modulated signal, demodulating the high priority signal from the hierarchically modulated signal, decoding the demodulated high priority signal, re-encoding the high priority signal, and processing the stored hierarchically modulated signal based upon the re-encoded high priority signal. | 03-05-2009 |
20090060065 | Communication system and method for receiving high priority and low priority signals - A communication system and method of communicating signals to a plurality of different types of receivers is provided. At least one transmitter transmits hierarchically modulated high priority and low priority signals as a single frequency network. At least one satellite re-transmits the high priority signal in a first circularly polarized direction and the low priority signal in a second circularly polarized direction. At least one of a first receiver having a single antenna is configured to receive the high priority signal in the first circularly polarized direction and switched to receive the low priority signal in the second circularly polarized direction, and a second receiver having a first antenna is configured to receive the high priority signal in the first circularly polarized direction, and a second antenna is configured to receive the low priority signal in the second circularly polarized direction substantially simultaneously. | 03-05-2009 |
20090075617 | Receiver system and method for switching among a plurality of antenna elements to receive a signal - A receiver system and method for switching among a plurality of antenna elements to receive a signal. At least a portion of plurality of antenna elements receive a transmitted signal, such that the transmitted signal includes a plurality of sub-channels that are transmitted in predetermined time intervals. A switching device is in communication with the plurality of antenna elements, and switches among single antenna elements to receive the transmitted signal. A controller is in communication with the switching device, and commands the switching device to select each of the antenna elements separately in predetermined periods of time based upon the predetermined time intervals of each of the sub-channels. A power level of the transmitted signal is determined during the predetermined period of time that corresponds to the predetermined time intervals, and the controller commands the switching device to switch to an antenna element based upon the determined power level. | 03-19-2009 |
20100022185 | System and method of satellite communication that reduces the doppler frequency shift of the satellite signals - A system and method of communicating signals is provided. The system includes a plurality of satellites, at least one receiver, and at least one satellite uplink station. The plurality of satellites include at least one active satellite. The at least one receiver is in communication with the plurality of satellites, and receives a signal from the at least one active satellite. The at least one satellite uplink station is in communication with the plurality of satellites, and transmits the signal and alters a frequency of the signal based upon a location of the at least one active satellite to reduce a Doppler frequency shift when activating and deactivating the plurality of satellites. | 01-28-2010 |
20100124187 | Communication system and method of communicating signals - A communication system and method are provided, wherein the system includes a first satellite orbiting in a first orbital path that communicates a first signal having a first content at a transmitting frequency while at a first elevation angle, and a second satellite orbiting in a second orbital path that communicates a second signal having a second content at the transmitting frequency while at a second elevation angle, wherein the first elevation angle is greater than the second elevation angle. The system further includes at least one terrestrial repeater that communicates a hierarchical modulated signal, wherein a hierarchical primary of the hierarchical modulated signal corresponds to the second signal communicated from the second satellite, and a hierarchical secondary of the hierarchical modulated signal corresponds to the first signal communicated from the first satellite, such that the first and second signals are communicated at the same transmitting frequency. | 05-20-2010 |
20100195482 | HIERARCHICALLY MODULATED OFDM COMMUNICATION FROM A SATELLITE-BASED TRANSMITTER WITH REDUCED SECONDARY DATA LOSS FROM CLIPPING - High priority data and low priority digital data are transmitted as primary and secondary data in hierarchically modulated, orthogonal frequency division multiplexing (OFDM) from an earth-orbiting satellite. To enable the transmitter amplifier to be operated with less back-off from saturation without clipping, the low priority OFDM symbols have fewer samples than the high priority OFDM symbols, and the high priority samples on which the low priority samples are superimposed are selected according to a first deterministic rule using sample power comparisons of the high priority samples to concentrate the low priority samples on those high priority samples having lower (optimally, the lowest) sample power. The low priority samples are distributed on the selected high priority samples according to a second deterministic rule relating the original low priority sample order to the original high priority sample order. | 08-05-2010 |