A non-iterative receiver is proposed to achieve near capacity performance on intersymbol interference (ISI) channels. There are two main ingredients in the proposed design. i) The use of a novel BCJR-DFE equalizer which produces optimal soft estimates of the inputs to the ISI channel given all the observations from the channel and L past symbols exactly, where L is the memory of the ISI channel. ii) The use of an encoder structure that ensures that L past symbols can be used in the DFE in an error free manner through the use of a capacity achieving code for a memoryless channel. Computational complexity of the proposed receiver structure is less than that of one iteration of the turbo receiver. We also provide the proof showing that the pro...
University of Minnesota Ph.D. dissertation. November 2011. Major: Electrical engineering. Advisor:Pr...
This dissertation deals with the design of bandwidth-efficient coding schemes with Low-Density Parit...
We study and analyze the performance of iterative equalization and decoding (IED) using an M-BCJR eq...
Recent advancements in iterative processing have allowed communication systems to perform close to c...
Abstract — A non-iterative receiver is proposed to achieve near capacity performance on channels wit...
Shannon's separate source and channel coding theorem suggests that communication of throughputs clos...
A universal approach to the design of communication systems for unknown and time-varying channels is...
Abstract In multicarrier (MC) systems, transmitter redundancy, which is introduced by means of finit...
Cover title.Includes bibliographical references (p. 49-51).Supported in part by the Advanced Concept...
A non-iterative joint equaliser and decoder scheme is proposed which outperforms the iterative turbo...
The thesis introduces receiver algorithms improving the performance of TDMA mobile radio systems. Pa...
This paper shows new tight finite-blocklength bounds for the best achievable lossy joint source-chan...
The performance of soft source decoding is evaluated over dispersive AWGN channels. By employing sou...
A low-complexity iterative channel estimation (ICE) algorithm is proposed with the promise of improv...
Abstract—This paper investigates the joint iterative decoding of low-density parity-check (LDPC) cod...
University of Minnesota Ph.D. dissertation. November 2011. Major: Electrical engineering. Advisor:Pr...
This dissertation deals with the design of bandwidth-efficient coding schemes with Low-Density Parit...
We study and analyze the performance of iterative equalization and decoding (IED) using an M-BCJR eq...
Recent advancements in iterative processing have allowed communication systems to perform close to c...
Abstract — A non-iterative receiver is proposed to achieve near capacity performance on channels wit...
Shannon's separate source and channel coding theorem suggests that communication of throughputs clos...
A universal approach to the design of communication systems for unknown and time-varying channels is...
Abstract In multicarrier (MC) systems, transmitter redundancy, which is introduced by means of finit...
Cover title.Includes bibliographical references (p. 49-51).Supported in part by the Advanced Concept...
A non-iterative joint equaliser and decoder scheme is proposed which outperforms the iterative turbo...
The thesis introduces receiver algorithms improving the performance of TDMA mobile radio systems. Pa...
This paper shows new tight finite-blocklength bounds for the best achievable lossy joint source-chan...
The performance of soft source decoding is evaluated over dispersive AWGN channels. By employing sou...
A low-complexity iterative channel estimation (ICE) algorithm is proposed with the promise of improv...
Abstract—This paper investigates the joint iterative decoding of low-density parity-check (LDPC) cod...
University of Minnesota Ph.D. dissertation. November 2011. Major: Electrical engineering. Advisor:Pr...
This dissertation deals with the design of bandwidth-efficient coding schemes with Low-Density Parit...
We study and analyze the performance of iterative equalization and decoding (IED) using an M-BCJR eq...