Performance Analysis of Rake Receiver for SUI Channel Modelling

Authors

  • Shital B. Kumbhalkar Department of Electronics and Communication Engineering, Sree Kavitha Engineering College, JNTU Hyderabad, Andhra Pradesh, India
  • Prashant R. Khond Ballarpur Institute of Technology, RTM Nagpur University, Maharashtra, India
  • D. Sailaja Department of Electronics and Communication Engineering, Sree Kavitha Engineering College, JNTU Hyderabad, Andhra Pradesh, India

DOI:

https://doi.org/10.51983/ajes-2014.3.2.1920

Keywords:

Ultra-Wideband, Rake Receiver, Stanford University Interim Model, Multiuser Access Interference, Intersymbol Interference, Least Bit Error, Minimum Mean Square Error

Abstract

This paper is concerned about the performance of UWB system in the multiuser environment. The existence of several multiuser access can cause a significant performance degradation and hence the transmission rate. In this paper, an adaptive least bit error rate (LBER) Rake receiver used for synchronous CDMA UWB system for SUI channel modelling to mitigate multiple access interference and inter symbol interference. Combining weights of Rake receiver is adapted based on the LBER criteria and calculate the cumulative results.BER performance of the conventional MRC,MMSE and LBER Rake receiver can be studied by varying the number of fingers for different number of users and also compare with SUI channel. The conditional probability density function for the output signal is generated to analyze the effect of MAI and ISI at the receiver side. The proposed LBER Rake receiver with SUI channel shows that receiver can suppress MAI and ISI more effectively and also have the lowest path loss in the multiuser environment hence increases the number of active user and transmission rate.

References

D. Cassioli, M. Z. Win, F. Vatalaro, and A. F. Molisch, "Low Complexity Rake Receivers in Ultra-Wideband Channel," IEEE Transactions on Wireless Communications, vol. 6, no. 4, April 2007.

M. Eslami and X. Dong, "Rake-MMSE-Equalizer Performance for UWB," IEEE Communications Letters, vol. 9, no. 6, pp. 502-504, June 2005.

C. R. Anderson, J. H. Reed, R. M. Buehrer, D. Sweeney, and S. Griggs, Introduction to Ultra Wideband Communication System, Prentice Hall PTR, USA, 2005.

G. C. Chung, "Multi-user Access Interference Suppression for UWB System," in 2012 International Conference on Computer & Information Science (ICCIS).

U. Madhow, "Blind adaptive interference suppression for direct-sequence CDMA," Proc. IEEE, vol. 86, pp. 2049-2069, Oct. 1998.

R. Kshetrimayum, "An Introduction to UWB Communication System," IEEE Potentials, vol. 28, issue 2, pp. 9-13, March-April 2009.

M. R. Gajbhiye, "Performance comparison of MMSE-based adaptive multiuser detection of DS-CDMA signals," in Industrial Electronics, Control & Robotics Conference (IECR), pp. 71-76, 27-29 December 2010.

K. Jeong, M. Yokoyama, and H. Uehara, "A Time-Varying Modified MMSE Detector for Multirate CDMA Signals in Fast Rayleigh Fading Channels," ETRI Journal, vol. 29, no. 2, April 2007.

S. Chen, A. K. Samingan, and B. Mulgrew, "Adaptive Minimum-BER Linear Multiuser Detection for DS-CDMA Signals in Multipath Channels," IEEE Transactions on Signal Processing, vol. 49, issue 6, pp. 1240-1247, June 2001.

C. C. Yeh and J. R. Barry, "Adaptive Minimum Bit-error-rate Filtering," IEEE Transactions on Vision, Image & Signal Processing, vol. 49, issue 6, pp. 1240-1247, June 2001.

S. Chen, S. Tan, L. Xu, and L. Hanzo, "Adaptive Minimum Error Rate Filter Design Review," IEEE Transaction on Signal Processing, vol. 88, issue 7, pp. 1671-1679, 2008.

N. Shabbir, M. T. Sadiq, H. Kashif, and Rizwan Ullah, "Comparison of Radio Propagation Models for Long Term Evolution Network," IJNGN Journal, vol. 3, no. 3, September 2011.

V. S. Abhayawardhana, I. J. Wassel, D. Crosby, M. P. Sellers, and M. G. Brown, "Comparison of Empirical Propagation Path Loss Models for Fixed Wireless Access Systems," in 61th IEEE Technology Conference, Stockholm, pp. 73-77, 2005.

D. S. Baum, "Simulating the SUI Channel Models," IEEE802.16.3c-01/53, 2001.

Downloads

Published

15-11-2014

How to Cite

Kumbhalkar, S. B., Khond, P. R., & Sailaja, D. (2014). Performance Analysis of Rake Receiver for SUI Channel Modelling. Asian Journal of Electrical Sciences, 3(2), 60–65. https://doi.org/10.51983/ajes-2014.3.2.1920