Joint source and channel coding (JSCC) using trellis coded quantization (TCQ) in conjunction with trellis coded continuous phase modulation (CPM) is studied. The channel is assumed to be the additive white gaussian noise (AWGN) channel. Analytical bounds on the channel distortion for the investigated systems with maximum-likelihood sequence detection (MLSD) are developed. The bounds are based on the transfer function technique, which was modified and generalized to include continuous-amplitude discrete-time signals. For a memoryless uniform source, the constructed bounds for the investigated systems are shown to be asymptotically tight for increasing channel signal-to-noise ratio (SNR) values. For a memoryless nonuniform source, the constru...
Symbol error probability bounds for maximum likelihood sequence detection (MLSD) of continuous phase...
Garcia-Frias, JavierRecently, analog joint source-channel coding (JSCC) systems based on mappings ha...
In this dissertation, we explore the possibility of transmitting discrete-time, continuous amplitude...
Joint source and channel coding (JSCC) using trelliscoded quantization (TCQ) in conjunction with tre...
The thesis investigates Joint Source and Channel Coding(JSCC) using combined Trellis Coded Quantizat...
An iterative decoding approach to joint source and channel coding (JSCC) using combined trellis-code...
In this paper, a new source encoding scheme is presented. It is a trellis coded quantization scheme ...
The performance of joint Trellis Coded Quantization/Continuous Phase Modulation (TCQ/CPM) has been i...
A new trellis-based coded quantisation scheme using ring convolutional codes is presented. When it i...
In this paper, a novel trellis source encoding scheme based on punctured ring convolutional codes is...
A new trellis quantization scheme based on punctured ring convolutional codes is proposed. It is dem...
Interleaved trellis coded systems with continuous phase modulation (TCCPM) are considered. It is sho...
A joint video and channel coded system employing an iteratively decoded serial concatenation of a Ve...
Recently, a method for combined noncoherent detection and decoding of trellis-codes (noncoherent cod...
Bandwidth limitations and cost considerations are important criteria in mobile communication system ...
Symbol error probability bounds for maximum likelihood sequence detection (MLSD) of continuous phase...
Garcia-Frias, JavierRecently, analog joint source-channel coding (JSCC) systems based on mappings ha...
In this dissertation, we explore the possibility of transmitting discrete-time, continuous amplitude...
Joint source and channel coding (JSCC) using trelliscoded quantization (TCQ) in conjunction with tre...
The thesis investigates Joint Source and Channel Coding(JSCC) using combined Trellis Coded Quantizat...
An iterative decoding approach to joint source and channel coding (JSCC) using combined trellis-code...
In this paper, a new source encoding scheme is presented. It is a trellis coded quantization scheme ...
The performance of joint Trellis Coded Quantization/Continuous Phase Modulation (TCQ/CPM) has been i...
A new trellis-based coded quantisation scheme using ring convolutional codes is presented. When it i...
In this paper, a novel trellis source encoding scheme based on punctured ring convolutional codes is...
A new trellis quantization scheme based on punctured ring convolutional codes is proposed. It is dem...
Interleaved trellis coded systems with continuous phase modulation (TCCPM) are considered. It is sho...
A joint video and channel coded system employing an iteratively decoded serial concatenation of a Ve...
Recently, a method for combined noncoherent detection and decoding of trellis-codes (noncoherent cod...
Bandwidth limitations and cost considerations are important criteria in mobile communication system ...
Symbol error probability bounds for maximum likelihood sequence detection (MLSD) of continuous phase...
Garcia-Frias, JavierRecently, analog joint source-channel coding (JSCC) systems based on mappings ha...
In this dissertation, we explore the possibility of transmitting discrete-time, continuous amplitude...