Iterative equalization and decoding for high-data-rate frequency-hop spread-spectrum communications

Iterative equalization and decoding for high-data-rate frequency-hop spread-spectrum communications

In this paper, a packet-level iterative equalization-and-decoding technique is evaluated for slow-frequency-hop spread-spectrum communications with Reed-Solomon coding. The receiver employs MAP equalization with priors during each iteration, and the soft equalizer outputs are used for bounded-distan...

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Bibliographische Detailangaben
Hauptverfasser: Ramchandran, H., Noneaker, D.L.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Applied sciences
Coding, codes
Detection, estimation, filtering, equalization, prediction
Equalizers
Exact sciences and technology
Fading
Frequency
Information, signal and communications theory
Intersymbol interference
Iterative decoding
Maximum likelihood estimation
Packet radio networks
Reed-Solomon codes
Signal and communications theory
Signal, noise
Spread spectrum communication
Systems, networks and services of telecommunications
Technological innovation
Telecommunications
Telecommunications and information theory
Transmission and modulation (techniques and equipments)
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Beschreibung
Zusammenfassung:In this paper, a packet-level iterative equalization-and-decoding technique is evaluated for slow-frequency-hop spread-spectrum communications with Reed-Solomon coding. The receiver employs MAP equalization with priors during each iteration, and the soft equalizer outputs are used for bounded-distance successive-erasures decoding. Successful decoding of some R-S codewords of the packet in earlier iterations is used to update the priors for equalization in subsequent iterations. The performance of this iterative technique is compared with the performance of one-shot equalization and successive-erasures decoding, and both are compared with the performance of a system using MLSE equalization and the parity-bit method for erasure generation. The decoding complexity of each approach is also considered, and the effect of limits on the maximum decoding delay is examined.
DOI:10.1109/MILCOM.2004.1494954