W.E. Stark scite author profile

Abstract-The performance of a single-user ultra-wideband (UWB) communication system employing binary block-coded pulse-position modulation (PPM) and suboptimal receivers in multipath channels is considered. The receivers examined include a rake receiver with various diversity combining schemes and an autocorrelation receiver, which is used in conjunction with transmitted reference (TR) signaling. A general framework is provided for deriving the performance of these receivers in multipath channels corrupted by additive white Gaussian noise (AWGN). By employing previous measurements of indoor UWB channels, we obtain numerical results for several cases which illustrate the tradeoff between performance and receiver complexity.

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Channels with block interference

McEliece

Stark

1984

IEEE Trans. Inform. Theory

341

213

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Unified design of iterative receivers using factor graphs

Worthen

Stark

2001

IEEE Trans. Inform. Theory

194

121

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Iterative algorithms are an attractive approach to approximating optimal, but high-complexity, joint channel estimation and decoding receivers for communication systems. We present a unified approach based on factor graphs for deriving iterative message-passing receiver algorithms for channel estimation and decoding. For many common channels, it is easy to find simple graphical models that lead directly to implementable algorithms. Canonical distributions provide a new, general framework for handling continuous variables. Example receiver designs for Rayleigh fading channels with block or Markov memory, and multipath fading channels with fixed unknown coefficients illustrate the effectiveness of our approach.

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Interference in Automotive Radar Systems: Characteristics, Mitigation Techniques, and Current and Future Research

Alland

Stark

Ali

et al. 2019

IEEE Signal Process. Mag.

210

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W.E. Stark

Performance of ultra-wideband communications with suboptimal receivers in multipath channels

Channels with block interference

Unified design of iterative receivers using factor graphs

Interference in Automotive Radar Systems: Characteristics, Mitigation Techniques, and Current and Future Research

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