American Journal of Information Science and Computer Engineering
Articles Information
American Journal of Information Science and Computer Engineering, Vol.5, No.1, Mar. 2019, Pub. Date: Mar. 5, 2019
The Effect of MIRBBASI-MARTIN Filter on the Performance of Filter Bank Multicarrier Transmultiplexer System
Pages: 1-7 Views: 1364 Downloads: 636
Authors
[01] Hagar Ahmed Ali, Department of Communication and Electronics, October High Institute of Engineering and Technology, Cairo, Egypt.
[02] Rokaia Mounir Zaki, Department of Electrical Engineering, Faculty of Engineering at Shoubra, Benha University, Cairo, Egypt.
Abstract
The paper presents a simulation analysis on filter bank multicarrier (FBMC) system with a bank of Mirabbasi-Martin window filter. The Multicarrier modulation system has been introduced as the most suitable technique in the mobile communication system due to its effectiveness in channels with multipath propagation. Cyclic Prefix Orthogonal Frequency division Multiplexing (CP-OFDM) is the dominant multicarrier modulation technique, which achieves high performance in the long term evolution system. However, in some applications such as cognitive radios and the uplink of the multicarrier system where a group of subcarriers is specified to each user, CP-OFDM may be an unfavorable choice. In this paper we focus on proving that FBMC transmultiplexer system provides improved performance with a bank of Mirabbasi-Martin window of filter length is six times greater than the number of the subchannel. The filter length is chosen after simulation results of the overlapping factor effect on the proposed filter. This value of the overlapping factor leads to fast falling off rate of the side lobes and good stopband attenuation with smaller leakage factor. The proposed system can effectively reduce the drawbacks of Cyclic Prefix Orthogonal Frequency Multiplexing. It has been numerically simulated to confirm that the proposed scheme results actually improve the spectrum efficiency, orthogonality and spectrum containment making FBMC a suitable candidate for high speed data transfer using Multicarrier Modulation.
Keywords
MCM, FBMC, CP-OFDM, Overlapping Factor, O-QAM, OOB, EVM
References
[01] Farhang-Boroujeny, Behrouz, “OFDM versus filter bank multicarrier”, IEEE signal processing magazine, Vol. 28, PP. 92-112, April 2011.‏
[02] Moaveni, Shima Manesh, Morteza Rajabzadeh, and Hossein Koshbin, “A Study on the PAPR of systematic UW-OFDM”, Electrical Engineering (ICEE), Iranian Conference on. IEEE, 2018.‏
[03] Zhang, Haijian, “Spectral efficiency comparison of OFDM/FBMC for uplink cognitive radio networks” EURASIP Journal on Advances in Signal Processing 2010.
[04] EL TOKHY, MOHAMED S, “Error Analysis of Wireless Sensor Network Based on OFDM Signal Transmission Algorithms for Radiation Detection”, Adhoc & Sensor Wireless Networks 41 (2018).‏
[05] Saeedi-Sourck, H., Wu, Y., Bergmans, J. W., Sadri, S., and Farhang-Boroujeny, “Sensitivity analysis of offset QAM multicarrier systems to residual carrier frequency and timing offsets”, Signal Processing, 91 (7), 1604-1612.‏
[06] Gerzaguet, Robin, “The 5G candidate waveform race: a comparison of complexity and performance”, EURASIP Journal on Wireless Communications and Networking, Vol. 13, January 2017.
[07] Bhasker, Akshita Misha and RishiRaj Kushwaha, “Modulation Schemes for Future 5G Cellular Networks” International Journal of Computer Networks and Wireless Communications, Vol. 8, PP. 16-22, Jan-Feb 2018.
[08] Taheri, Sohail, “Efficient implementation of filter bank multicarrier systems using circular fast convolution”, IEEE Access, vol. 5, PP. 2855-2869, February 2017.‏
[09] Reddy, Keesara Upender, Spectrum Sensing of FBMC Signals in 5G and Cognitive Radios. Diss. International Institute of Information Technology Hyderabad-500 032, India, 2018.‏
[10] Kansal, Parnika, and A. K. Shankhwar, “Performance Analysis of FBMC-OQAM based 5G Wireless System using PAPR” International Journal of Computer Applications 161.12 (2017).‏
[11] Jiang, Tao, OQAM/FBMC for Future Wireless Communications: Principles, Technologies and Applications. Academic Press, 2017.‏
[12] Rajalekshmi Sanal, Cherian Schariah, Shibu R. M, “End to End Latency Analysis of FBMC using FPGA”, International Journal of Engineering Research & Technology (IJERT), Vol. 3, 2014.
[13] Satwinder kaur, gurjot singh and lavish kansal and nuru safarov, “survey of filter bank multicarrier (FBMC) as an efficient waveform for 5G”, international journal of pure and applied mathematics, Vol. 7, PP. 45-49, 2018.
[14] Gurjot singh and Lavish kansal, “A study of diverse waveforms for 5G”, International journal of pure and applied mathematics, Vol. 118, PP. 855-861, 2018.
[15] Parvez and Imtiaz, “A survey on low latency towards 5G: RAN, core network and caching solutions”, IEEE Communications Surveys & Tutorials, Vol. 20, PP. 3098 -3130, May 2018.‏
[16] Bellanger, Maurice, “FBMC physical layer: a primer”, PHYDYAS, Vol. 25, pp. 7-10, January 2010.
[17] Martin and W. Kenneth, “Small side-lobe filter design for multitone data communication applications”, IEEE Transactions on Circuits and Systems II: Analog and Digital Signal Processing, vol. 45, pp. 1155-1161, August 1998.‏
[18] Mirabbasi and Martin, “Design of prototype filter for near perfect reconstruction overlapped complex modulated Transmultiplexer”, Circuits and Systems ISCAS2002, IEEE International Symposium on. Vol. 1, May 2002.‏
[19] Sahin, Alphan, Ismail Güvenç, and Hüseyin Arslan, “A Survey on Multicarrier Communications: Prototype Filters, Lattice Structures, and Implementation Aspects” IEEE Communications Surveys and Tutorials, Vol. 16, PP. 1312-1338 march 2014.
[20] Zhao, J., and Andrew D. Ellis, “Offset-QAM based coherent WDM for spectral efficiency enhancement,” Optics express, Vol. 19, PP. 14617-14631, 2011.
[21] William Stallings, Data and computer communications, Prentice Hall (2005).‏
[22] J. G. proakise and D. K. Manolakis, Digital signal processing, 4th edition. Upper saddle river, NJ, USA: prentice-hall, Inc., 2006.
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