Abstract
We propose a novel SIR weighting postdetection combining diversity scheme with a new accurate SIR estimation method. The SIR is estimated and used as the weighting factor to compensate severe cochannel interference, one of the most important issues for PCS in terms of frequency utilization. Theimprovement offered by the proposal depends on SIR estimation accuracy.The SIR is, in this paper, estimated by a matched filter where theauto-correlation between received signal and unique word is calculated. Computer simulationsconfirm that the SIR of each diversity branch can be estimated easily andaccuratelyby the proposed SIR estimation method. The proposed diversity scheme achievesaperformance very close to that of ideal SINR weighting diversity underRayleighfading with severe cochannel interference. When average SIR = 10 dB and thenumber of branches(L)=4, the proposed diversity scheme lowers the requiredEb/N0 by 5 dB at BER = 1×10-3compared to conventional maximal ratio combining diversity. This paper alsopresentsthe unique word length required to realize adequate performance, i.e.,robustnessagainst high-pitch Rayleigh fading.
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References
K. Murota and K. Hirade, “GMSK Modulation for Mobile Radio Telephony”, IEEE Trans. Commun., Vol. COM-29, pp. 1044–1050, 1981.
T. Sunaga and S. Sampei, “'Performance of Multi-Level QAM with Post-Detection Maximal Ratio Combining Space Diversity for Digital Land-Mobile Radio Communications”, IEEE Trans. Veh., Vol. VT-42, pp. 294–301, 1993.
K. Kohiyama, T. Hattori, H. Sekiguchi and R. Kawasaki, “Advanced Personal Communication System”, in IEEE Proc. of 40th VTS, Orlando, May 1990, pp. 161–166.
H. Eriksson and R. Bownds, “Performance of Dynamic Channel Allocation in the DECT System”, in IEEE Proc. VTC'91, May 1991, pp. 693–698.
M. Serizawa and S. Asakawa, “Interruption Characteristics of Distributed Dynamic Channel Allocation with Reuse Partitioning and Power Control”, IEICE Trans., Vol. J78-B-II, No.6, pp. 421–434, 1995.
J.H. Winters, “Optimum Combining in Digital Mobile Radio with Cochannel Interference”, IEEE Trans. Veh., Vol. VT-33, pp. 144–155, 1984.
H. Suzuki, “Interference Canceling Characteristics of Diversity Reception with Least-Squares Combining-MMSE Characteristics and BER Performance-”, IEICE Trans., Vol. J74-B-II, No.12, pp. 637–645, 1991.
W.C. Jakes, Microwave Mobile Communications, John Wiley & Sons, 1974.
F. Adachi and K. Ohno, “BER Performance of QDPSK with Post Detection Diversity Reception in Mobile Radio Channels”, IEEE Trans. Veh., Vol. VT-40, pp. 237–249, 1991.
M. Ikura and F. Adachi, “Postdetection Phase Combining Diversity”, IEEE Trans. Veh., Vol. VT-43, pp. 298–303, 1994.
A. Hirai, K. Yoshimoto and S. Yoshida, “In-Service Detection of Co-Channel Interference for π/4-shift QPSK”, IEICE Tech. Rep., RCS91-54, Jan. 1991.
H. Iochi and Y. Akaiwa, “Co-Channel Interference Measuring Methods for Digital Mobile Communications”, IEICE Trans., Vol. J80-B-II, No.1, pp. 10–17, 1997.
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Maehara, F., Nakamura, O. & Takanashi, H. SIR Weighting Combining Diversity Using Matched Filter for Personal Communication Systems. Wireless Personal Communications 15, 181–197 (2000). https://doi.org/10.1023/A:1008963300118
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DOI: https://doi.org/10.1023/A:1008963300118