Abstract: Systems and method are provided for dynamically adjusting relay methodology based on current radio frequency channel conditions by selecting an optimal relay method. Radio relay systems that can dynamically adapt their relay modes in accordance with embodiments of the present disclosure can achieve useful power savings over conventional relay systems designed for worst case scenario operation.

Abstract: Systems and method are provided for dynamically adjusting relay methodology based on current radio frequency channel conditions by selecting an optimal relay method. Radio relay systems that can dynamically adapt their relay modes in accordance with embodiments of the present disclosure can achieve useful power savings over conventional relay systems designed for worst case scenario operation.

Abstract: A bent-pipe relay communication system and method of using same. The bent-pipe relay communication system includes a plurality of bent-pipe relay channels, each channel having automatic gain control. Each channel of the plurality of bent-pipe relay channels includes a radio -frequency-to-intermediate-frequency demodulator, at least one programmable variable gain amplifier, and an intermediate-frequency-to-radio-frequency modulator. The communication system further includes at least one radio frequency power detector operably connected to the intermediate-frequency-to-radio-frequency modulator for each channel. The system also includes at least one controller communicating with the at least one radio frequency power detector and the at least one variable gain amplifier for the each channel to provide the automatic gain control.

Abstract: A variable data rate error protection transcoder includes an input mapper receiving an input transcodeable codeword and outputting an input intermediate codeword. The input transcodeable codeword includes at least one input transcodeable information bit and at least one input transcodeable parity bit. The variable data rate error protection transcoder also includes an intermediate codeword transcoder receiving the input intermediate codeword and outputting an output intermediate codeword. The variable data rate error protection codeword also includes an output mapper receiving the output intermediate codeword and outputting an output transcoded codeword. The output transcoded codeword includes at least one output transcoded information bit and at least one output transcoded parity bit.

Abstract: A variable data rate error protection transcoder includes an input mapper receiving an input transcodeable codeword and outputting an input intermediate codeword. The input transcodeable codeword includes at least one input transcodeable information bit and at least one input transcodeable parity bit. The variable data rate error protection transcoder also includes an intermediate codeword transcoder receiving the input intermediate codeword and outputting an output intermediate codeword. The variable data rate error protection codeword also includes an output mapper receiving the output intermediate codeword and outputting an output transcoded codeword. The output transcoded codeword includes at least one output transcoded information bit and at least one output transcoded parity bit.

Abstract: Secure Variable Data Rate Transceivers and methods for implementing Secure Variable Data Rate are presented. An efficient and systematic method and circuit for implementing secure variable data rate transceivers are presented. The SVDR method is based on block ciphers. An index method is presented for minimizing transmission overhead. This allows SVDR to achieve higher security by using the full ciphermode stream.

Abstract: Variable Rate Congestion Controllers and methods for implementing Variable Rate Congestion Control are presented. An efficient and systematic method for performing variable rate network congestion control is presented. A selection mechanism is selected such that the end result for the network congestion control is that each variable rate network flow suffers approximately equally through the congested node. This achieves a fair policy of implementing Quality of Service for variable rate streaming data.

Abstract: Secure Variable Data Rate Transceivers and methods for implementing Secure Variable Data Rate are presented. An efficient and systematic method and circuit for implementing secure variable data rate transceivers are presented. The SVDR method is based on block ciphers. An index method is presented for minimizing transmission overhead. This allows SVDR to achieve higher security by using the full ciphermode stream.

Abstract: Encoders and methods for designing encoders for Low Density Parity Check (LDPC) and other block codes are presented. An efficient and systematic method for designing partially parallel encoders is presented. A parallelism factor is selected such that the end result for the encoder is similar to the partially parallel G matrix multiplication method. In addition to the method an initial circuit is given for the G matrix multiplication encoder and the RU encoder. A circuit for the hybrid encoder is presented which achieves less power consumption and smaller area than an equivalent encoder based on the G matrix multiplication with a smaller critical path than previous encoders.