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Frequency-hopping multiple-access communications with concatenated diversity/Reed-Solomon coding

Frequency-hopping multiple-access communications with concatenated diversity/Reed-Solomon coding

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© The Institution of Electrical Engineers
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Multiple-access capability of a frequency-hopped spread-spectrum communication system employing the concatenated diversity/Reed-Solomon code is investigated. We present general asymptotic expressions for the achievable region and the normalised throughput. For the case of finite block length codes, a fairly accurate approximation to the achievable region, subjected to the constraint that the packet error on a given link is no greater than P∩E, has been derived. Both side information and no side information cases are considered.

Inspec keywords: frequency agility; encoding; diversity reception; multi-access systems; error correction codes; spread spectrum communication

Other keywords: packet error; normalised throughput; asymptotic expressions; frequency-hopped spread-spectrum communication system; achievable region; finite block length codes; Reed-Solomon coding; Reed-Solomon code; concatenated diversity; multiple-access communications; side information

Subjects: Radio links and equipment; Codes

References

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      • E.A. Geraniotis , M.B. Pursley . Error probabilities for slow frequency-hopped spread-spectrum multiple-access communications over fading channels. IEEE Trans. Commun. , 996 - 1009
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      • Pursley, M.B.: `Coding and diversity for channels with fading and pulsed interference', Proc. Conf. Information science and systems, March 1982, Princeton University, p. 413–418.
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      • A. Papoulis . (1991) , Probability, random variables, and stochastic processes.
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      • E.R. Berlekamp . The technology of error-correcting codes, Appendix B. Proc. IEEE , 564 - 592
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      • A.E. Gamal , T.M. Cover . Multiple user information theory. Proc. IEEE , 1466 - 1483
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      • W.E. Stark . Coding for frequency-hopped spread-spectrum communication with partial-band interference—Part II: coded performance. IEEE Trans. Commun. , 1045 - 1057
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      • Kim, S.W.: `Coding for spread-spectrum communication networks', January 1987, Ph.D. Thesis, University of Michigan.
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