Performance of TC-MPSK on co-channel interference and fading channel

Gunawan Wibisono; Iwao Sasase

Performance of TC-MPSK on co-channel interference and fading channel

Gunawan Wibisono, Iwao Sasase

Department of Information and Computer Science

Research output: Contribution to conference › Paper › peer-review

Abstract

The bit error rate (BER) performance of trellis coded M-ary PSK (TC MPSK) in the presence of undesired multiple co-channel interference (CCI) and fading is investaged. The fading statistic for desired signal is Rician or Nakagami fading and the undesired interference signals are characteristic by Rayleigh fading. We assume all the interferers are unmodulated because most of errors are produced by Rayleigh fading itself rather than the modulating sequence, and thus, it can be treated as complex Gaussian noise and all the interferers have the same power. We use the error property and error bound based on transfer functions where the number of error states equals to the number of trellis states to evaluate the BER performance. It is shown that BER performance of TC 8PSK is improved as increasing either the power of desired signal or the value of signal to interference ratio (SIR).

Original language	English
Pages	207-211
Number of pages	5
Publication status	Published - 1997 Dec 1
Event	Proceedings of the 1997 International Symposium on Personal, Indoor and Mobile Radio Communications, PIMRC'97. Part 1 (of 3) - Helsinki, Finl Duration: 1997 Sep 1 → 1997 Sep 4

Other

Other	Proceedings of the 1997 International Symposium on Personal, Indoor and Mobile Radio Communications, PIMRC'97. Part 1 (of 3)
City	Helsinki, Finl
Period	97/9/1 → 97/9/4

ASJC Scopus subject areas

Electrical and Electronic Engineering

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title = "Performance of TC-MPSK on co-channel interference and fading channel",

abstract = "The bit error rate (BER) performance of trellis coded M-ary PSK (TC MPSK) in the presence of undesired multiple co-channel interference (CCI) and fading is investaged. The fading statistic for desired signal is Rician or Nakagami fading and the undesired interference signals are characteristic by Rayleigh fading. We assume all the interferers are unmodulated because most of errors are produced by Rayleigh fading itself rather than the modulating sequence, and thus, it can be treated as complex Gaussian noise and all the interferers have the same power. We use the error property and error bound based on transfer functions where the number of error states equals to the number of trellis states to evaluate the BER performance. It is shown that BER performance of TC 8PSK is improved as increasing either the power of desired signal or the value of signal to interference ratio (SIR).",

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N2 - The bit error rate (BER) performance of trellis coded M-ary PSK (TC MPSK) in the presence of undesired multiple co-channel interference (CCI) and fading is investaged. The fading statistic for desired signal is Rician or Nakagami fading and the undesired interference signals are characteristic by Rayleigh fading. We assume all the interferers are unmodulated because most of errors are produced by Rayleigh fading itself rather than the modulating sequence, and thus, it can be treated as complex Gaussian noise and all the interferers have the same power. We use the error property and error bound based on transfer functions where the number of error states equals to the number of trellis states to evaluate the BER performance. It is shown that BER performance of TC 8PSK is improved as increasing either the power of desired signal or the value of signal to interference ratio (SIR).

AB - The bit error rate (BER) performance of trellis coded M-ary PSK (TC MPSK) in the presence of undesired multiple co-channel interference (CCI) and fading is investaged. The fading statistic for desired signal is Rician or Nakagami fading and the undesired interference signals are characteristic by Rayleigh fading. We assume all the interferers are unmodulated because most of errors are produced by Rayleigh fading itself rather than the modulating sequence, and thus, it can be treated as complex Gaussian noise and all the interferers have the same power. We use the error property and error bound based on transfer functions where the number of error states equals to the number of trellis states to evaluate the BER performance. It is shown that BER performance of TC 8PSK is improved as increasing either the power of desired signal or the value of signal to interference ratio (SIR).

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