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Interference Cancellation in CDMA Systems Employing Complementary Codes Under Rician Fading Channels

Authors:

Vidhyacharan BhaskarAuthors Info & Claims

Wireless Personal Communications: An International Journal, Volume 101, Issue 2

Pages 897 - 914

https://doi.org/10.1007/s11277-018-5732-3

Published: 01 July 2018 Publication History

Abstract

The ideal correlation properties of single user code division multiple access (CDMA) systems with complementary codes (CC) are lost by multiple access interference and near---far effects in downlink frequency selective fading channels. This severity in interference has motivated to develop ways to overcome the threats with suitable suboptimal interference cancellation schemes. In this paper, we propose successive interference cancellation (SIC) for downlink CDMA systems with CC to improve the system capacity and reduce error rate under near---far situations. Theoretical study and extensive simulations were conducted to verify the effectiveness of proposed SIC under frequency selective Rician fading channels in achieving frequency diversity gain, close to theoretical lower bound in complementary coded CDMA (CC-CDMA) systems.

References

[1]

Sari, H., Karam, G., & Jeanclaude, I. (1995). Transmission techniques for digital terrestrial TV broadcasting. IEEE Communication Magazine,33(2), 100---109.

Digital Library

[2]

Tseng, C. C., & Liu, C. L. (1995). Complementary sets of sequences. IEEE Wireless Communications,18(5), 644---652.

Digital Library

[3]

Golay, M. J. E. (1961). Complementary series. IRE Transactions on Information theory,72(2), 82---87.

[4]

Chen, H. H., Yeh, J. F., & Suehiro, N. (2001). A multicarrier CDMA architecture based on orthogonal complementary codes for new generations of wideband wireless communications. IEEE Communication Magazine,39(10), 126---135.

Digital Library

[5]

Chen, H. H., Chiu, H. W., & Guizani, M. (2006). Orthogonal complementary codes for interference free CDMA technologies. IEEE Wireless Communications,13(1), 68---79.

Digital Library

[6]

Chen, H. H. (2007). The next generation CDMA technologies. Hoboken: Wiley.

[7]

Chen, H. H., Chu, S. W., Kuroyanagi, N., & Vinck, A. J. H. (2007). An algebraic approach to generate a superset of perfect complementary codes for interference-free CDMA. Wireless Communications and Mobile Computing,7(5), 605---622.

Digital Library

[8]

Meng, W. H., Sun, S. Y., & Chen, H. H. (2013). Multiuser interference cancellation in complementary coded CDMA with diversity gain. IEEE Wireless Communication Letters,2(3), 303---306.

[9]

Liu, Z., Guan, Y. Z., & Chen, H. H. (2015). Fractional delay resilient receiver design for interference free MC-CDMA communication based on complete complementary codes. IEEE Transactions on Wireless Communications,4(3), 1226---1236.

[10]

Mohammed, M., & Buehrer, M. (2008). The effects of ordering criteria in linear successive interference cancellation in CDMA system. IEEE Transaction on Wireless Communications,7(11), 4128---4132.

Digital Library

[11]

Judson, D., & Albert Raj, A. (2016). Performance of multicarrier complementary-coded CDMA under frequency-selective Nakagami-m fading channels. Eurasip Journal on Wireless Communications & Networking.

[12]

Sun, S. Y., Hu, Y. L., Chen, H. H., & Meng, W. X. (2016). Joint pre-equalization and adaptive combining for CC-CDMA systems over asynchronous frequency-selective fading channels. IEEE Transactions on Vehicular Technology,65(7), 5175---5184.

[13]

Judson, D., & Bhaskar, V. (2017). Error rate analysis of SIMO-CDMA with complementary codes under multipath fading channels. Wireless Personal Communications.

Digital Library

[14]

Benvenuto, N., & Bisaglia, P. (2003). Parallel and successive interference cancellation for MC-CDMA and their near---far resistance. In Proceedings of IEEE Vehicular Technology Conference, pp. 1045---1049.

[15]

Fang, L., & Milstein, L. B. (2000). Successive interference cancellation for multicarrier DS/CDMA. IEEE Transactions on Communications,48(9), 1530---1540.

[16]

Miridakis, N. I., & Vergados, D. D. (2013). A survey on the successive interference cancellation performance for single-antenna and multiple-antenna OFDM systems. IEEE Communications Surveys and Tutorials,15(1), 312---335.

[17]

Andrews, J., & Meng, T. (2003). Optimum power control for successive interference cancellation with imperfect channel estimation. IEEE Transactions on Wireless Communications,2(3), 375---383.

Digital Library

[18]

Hossein-Abed, H. M., Nezambadi-Pour, H., Moghadam, D. A., & Khademi, M. (2013). Joint detection, channel estimation and interference cancellation in downlink MC-CDMA communication systems using complex-valued multilayer neural networks. Annals of Telecommunications,68(7), 467---476.

[19]

Proakis, J. G. (2001). Digital communication (4th ed.). New York: McGraw-Hill.

[20]

Judson, D., Bhaskar, V., & Selvaraj, K. (2017). Pre-equalization schemes for MIMO CC-CDMA systems over frequency-selective fading channels. Wireless Personal Communications.

Digital Library

[21]

Chen, H. H., & Chiu, H. W. (2004). Design of perfect complementary codes to implement interference-free CDMA systems. Proceedings of IEEE GLOBECOM,2, 1096---1100.

[22]

Verdu, S. (1998). Multiuser detection. UK: Cambridge University Press.

Digital Library

[23]

Madkour, M. F., Gupta, S. C., & Wang, Y. P. E. (2002). Successive interference cancellation algorithms for downlink W-CDMA communication. IEEE Transactions on Wireless Communications,11(1), 169---177.

Digital Library

[24]

Saxena, J., Rai, C. S., & Bansal, P. K. (2007). Near---far resistant ICA based detector for DS-CDMA systems in the downlink. Wireless Personal Communications,43(2), 341---353.

Digital Library

[25]

Wang, C., Au, E., Munch, R., Mow, W. H., Cheng, R., & Lau, V. (2007). On the performance of MIMO zero-forcing receiver in the presence of channel estimation error. IEEE Transactions on Wireless Communications,16(3), 805---810.

Digital Library

Cited By

Merin Joshiba JJudson DBhaskar V(2023)A Comprehensive Review on NOMA Assisted Emerging Techniques in 5G and Beyond 5G Wireless SystemsWireless Personal Communications: An International Journal10.1007/s11277-023-10384-6130:4(2385-2405)Online publication date: 13-Apr-2023
https://dl.acm.org/doi/10.1007/s11277-023-10384-6
D JPortia ALivingston L(2023)Low‐complexity joint equalization and CFO compensation in uplink SC‐FDMA NOMA system under different power allocation strategiesTransactions on Emerging Telecommunications Technologies10.1002/ett.483334:10Online publication date: 12-Oct-2023
https://dl.acm.org/doi/10.1002/ett.4833
Arun Prem Santh JJudson DSelvaraj KBhaskar V(2022)Improved PAPR Reduction Using Gamma Correction in SC-FDMA Systems Under Multipath Fading ChannelsWireless Personal Communications: An International Journal10.1007/s11277-022-09690-2125:3(2889-2905)Online publication date: 1-Aug-2022
https://dl.acm.org/doi/10.1007/s11277-022-09690-2
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Interference Cancellation in CDMA Systems Employing Complementary Codes Under Rician Fading Channels

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cover image Wireless Personal Communications: An International Journal

Wireless Personal Communications: An International Journal Volume 101, Issue 2

July 2018

583 pages

ISSN:0929-6212

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Copyright © Copyright © 2018 Springer Science+Business Media, LLC, part of Springer Nature.

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Kluwer Academic Publishers

United States

Publication History

Published: 01 July 2018

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Cited By

Merin Joshiba JJudson DBhaskar V(2023)A Comprehensive Review on NOMA Assisted Emerging Techniques in 5G and Beyond 5G Wireless SystemsWireless Personal Communications: An International Journal10.1007/s11277-023-10384-6130:4(2385-2405)Online publication date: 13-Apr-2023
https://dl.acm.org/doi/10.1007/s11277-023-10384-6
D JPortia ALivingston L(2023)Low‐complexity joint equalization and CFO compensation in uplink SC‐FDMA NOMA system under different power allocation strategiesTransactions on Emerging Telecommunications Technologies10.1002/ett.483334:10Online publication date: 12-Oct-2023
https://dl.acm.org/doi/10.1002/ett.4833
Arun Prem Santh JJudson DSelvaraj KBhaskar V(2022)Improved PAPR Reduction Using Gamma Correction in SC-FDMA Systems Under Multipath Fading ChannelsWireless Personal Communications: An International Journal10.1007/s11277-022-09690-2125:3(2889-2905)Online publication date: 1-Aug-2022
https://dl.acm.org/doi/10.1007/s11277-022-09690-2
Starwin MJudson DSelvaraj K(2022)Error Rate Analysis of Uplink MC-CDMA Systems using Complementary Codes in Rayleigh Fading ChannelsWireless Personal Communications: An International Journal10.1007/s11277-021-09119-2123:1(69-83)Online publication date: 1-Mar-2022
https://dl.acm.org/doi/10.1007/s11277-021-09119-2

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