BER and Magnitude Analysis of FBMC Transceiver based High Power Amplifiers for 5G Technologies
Keywords:
Filter Bank Multicarrier (FBMC), Filter Bank, MIMO System, 5G TechnologyAbstract
Using filter bank multi-carrier (FBMC) with Offset-QAM (OQAM) is one combination which achieves this task. In this thesis, we study this modulation, how it is possible to efficiently modulate and demodulate it but also the transcoder (pre-coder, equalizer or both) that can be used when transmitting through multi-tap and MIMO channels. Another modulation, based on FBMC with OQAM, cyclic offset-QAM (COQAM) tries to make a tradeoff between spectral efficiency and simplicity of the equalization and transcoding methods. In this thesis, FBMC based modulation schemes are tested through different scenario: unsynchronized multi-users, unsynchronized uplink, multiple channels, SIMO, MISO and MIMO channels In this paper the studied of MIMO technique for FBMC transceiver for 5G technologies is presented.
References
Zongmiao He, Lingyu Zhou, Yiou Chen, Xiang Ling, “Filter Optimization of Out-of-Band Emission and BER Analysis for FBMC-OQAM System in 5G”, 2017 9th IEEE International Conference on Communication Software and Networks.
Mawlawi, B., Dore, J.B., Berg, V. “Optimizing contention based access methods for FBMC waveforms, Int. Conf. on Military Commun. and Information Systems,” Cracow, Poland, May 2015, pp.1-6.
Viholainen, A., Ihalainen, T., Stitz, T.H., Renfors, M., and Bellanger “Prototype filter design for filter bank based multicarrier transmission,” 17th Euro. Signal Process Conf., Glasgow, Scotland, August 2009, pp. 24-28.
Chen, D., Qu, D.M., and Jiang, T. “Novel prototype filter design for FBMC base cognitive radio systems through direct optimization of filter coefficients,” IEEE Int. Conf. Wirel. Commun. & Signal Proc., Suzhou, China, October 2010, pp. 21-23.
P. Siohan, C. Siclet, and N. Lacaille, “Analysis and design of OFDM/OQAM systems based on filter bank theory,” IEEE Trans. Signal Process., vol. 50, no. 5, pp. 1170–1183, May 2002.
B. Farhang-Boroujeny, ”OFDM Versus Filter Bank Multicarrier”, IEEE Signal Processing Magazine, vol. 28, pp. 92-112, May 2011.
B. Farhang-Boroujeny, “Cosine Modulated and Offset QAM Filter Bank Multicarrier Techniques A Continuous-Time Prospect,” EURASIP Journal on Advances in Signal Processing, pp. 6, Jan 2010.
V. Ari, B. Maurice, and H. Mathieu, “WP5: Prototype filter and filter bank structure”, PHYDYASPHYsical layer for Dynamic AccesS and cognitive radio, Jan 2009.
B. Hirosaki, “An analysis of automatic equalizers for orthogonally multiplexed QAM systems,” IEEE Transactions on Communications, 28(1). pp. 73-83, Jan. 1980.
S. Nedic and N. Popvic, ”Per-bin DFE for advanced OQAM-based multicarrier wireless data transmission systems,” Broadband Communications, 2002. Access, Transmission, Networking. 2002 International Zurich Seminar on, pp. 38-1, Feb. 2002.
D. S. Waldhauser, L. G. Baltar and J. A. Nossek,”MMSE subcarrier for filter bank based multicarrier systems,” Proc. IEEE 9th Workshop on Signal Processing Advances in Wireless Communications, pp.525-529, July 2008.
A. Ikhlef and J. Louveaux, ”An enhanced MMSE per subchannel equalizer for highly frequency selective channels for FBMC/OQAM systems,” Proc. IEEE 10th Workshop on Signal Processing Advances in Wireless Communications, pp. 186-190. June 2009.
Aparna Singh Kushwah, Monika Jain, “Performance Enhancement of MIMO-OFDM System based on Spectrum Sensing Cognitive Radio Networks using Matched Filter Detection”, International Journal of Innovative Research in Computer and Communication Engineering, Vol. 6, Issue 6, June 2018.
Aparna Singh Kushwah, Alok Kumar Shukla, “BER Reduction of Distributed Spatial Modulation in Cognitive Relay Network based MIMO-OFDM System”, International Journal of Innovative Research in Computer and Communication Engineering, Vol. 6, Issue 6, June 2018.
Kwentus, Z. Jiang, and A. Willson, Jr., “Application of filter sharpening to cascaded integrator-comb decimation filters,” IEEE Transactions on Signal Processing, vol.45, pp.457-467, February 1997.
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