Performance evaluation of optimum combining and maximal ratio combining in the presence of co-channel interference and channel correlation for wireless communication systems

被引：21

作者：

Cui J. ^{[1
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Falconer D.D. ^{[2
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Sheikh A.U.H. ^{[2
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机构：

[1] Nortel, Station C, P.O. Box 3511, Ottawa

[2] Dept. of Syst. and Comp. Engineering, Carleton University, Ottawa

[3] Department of Electronic Engineering, Polytechnic University of Hong Kong, Hong Hum, Kowloon

[4] East-South University, Nanjing

[5] Shanghai Medical University, Shanghai

[6] Advanced Wireless System Group, Northern Telecom, Ottawa, Ont.

[7] Royal Institute of Technology, Stockholm

[8] Bell Laboratories, Holmdel, NJ

[9] Linköping University, Linköping

[10] Carleton University, Ottawa, Ont.

[11] Univ. of Engineering and Technology, Lahore

[12] Department of Electronic Engineering, Hong Kong Polytechnic University

[13] PCS Research Laboratory, Carleton University

[14] Tech. Program Committee for VTC '96

[15] Technical Program of VTC '98, Ottawa, Ont.

[16] Bell-Northern Research, Ottawa, Ont.

来源：

Mobile Networks and Applications | 1997年 / 2卷 / 4期

关键词：

Error Rate; Performance Evaluation; Communication System; Wireless Communication; Optimum Combine;

D O I：

10.1023/A:1013653321510

中图分类号：

学科分类号：

摘要：

Antenna diversity is an important technique to combat fading and reduce co-channel interference (CCI). In this paper, we present an analytical approach to derive bit error rate (BER) for Optimum Combining (OC) and Maximal Ratio Combining (MRC) in the presence of CCI. The paper has two parts. In the first part, the analysis of BER for OC with two co-channel interferers and MRC with an arbitrary number of interferers is presented for M-array antenna systems under the assumption that the channels of users are independent of each other. In the second part, the analysis of BER for OC and MRC in the presence of one dominant co-channel interferer is presented for dual antenna systems by assuming that the channels of the desired user or co-channel interferer are correlated. For DPSK signal, an exact BER expression is derived. The work presented here also yields an upper bound for BPSK or QAM signal based on the results of Foschini and Salz (1983).

引用

页码：315 / 324

页数：9

共 18 条

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[2] Bogachev, V.M., Kiselev, I.G., Optimum combining of signals in space-diversity reception (1980) Telecommunications and Radio Engineering, 34-35 (10), pp. 83-85
[3] Bottomley, G.E., Jamal, K., Adaptive array and MLSE equalization (1995) Proceedings of VTC '95, pp. 50-54. , Chicago, Illinois July 25-28
[4] Compton, R.T., (1988) Adaptive Antenna - Concepts and Performance, , Prentice-Hall, Englewood Cliffs, NJ
[5] Cui, J., Falconer, D.D., Sheikh, A.U.H., The analysis of BER for optimum combining with two co-channel interferers and maximal ratio combining with arbitrary number of interferers (1996) Proceedings of PIMRC '96, pp. 53-57. , Taipei, Taiwan October 15-18
[6] Cui, J., Falconer, D.D., Sheikh, A.U.H., BER analysis of optimum combining and maximal ratio combining with channel correlation for dual antenna systems (1997) Proceedings of VTC '97, pp. 150-154. , Phoenix, Arizona May 5-7
[7] Davenport, W.B., Root, W.L., (1958) An Introduction to the Theory of Random Signals and Noise, , McGraw-Hill, New York
[8] Foschini, G.J., Salz, J., Digital communications over fading radio channels (1983) Bell System Technical Journal, 62, pp. 429-456. , February
[9] Jakes Jr., W.C., (1974) Microwave Mobile Communications, , Wiley, New York
[10] Lamaire, R.O., Zorzi, M., Correlation in diversity systems with Raleigh fading, shadowing, and power capture (1995) Proceedings of PIMRC '95, pp. 1212-1217. , Toronto, Canada September 27-29

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