Matlab- Based Interference Mitigation in WPAN IR-UWB
Keywords:
WPAN, Recievers, Filters, MatlabToolbox
Abstract
Impulse Radio - Ultra Wideband (IR-UWB) is a wireless technology system that offers a high data rate within a short range. Therefore, IR-UWB system is regarded as an excellent physical layer solution to the multi-piconet Wireless Personal Area Network (WPAN) applications. In spite of all the advantages of IR-UWB, there are several fundamental and practical challenges that need to be carefully addressed. The big and most important one among these challenges is the interference. Two types of Rake receivers are designed and simulated to highly mitigate the MUI these are (PRake receiver) and (SRake receiver).
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References
[1] A. Ahmad, "Wireless and Mobile Data Networks", John Wiley & Sons, Inc., 2005.
[2] R. Saeed, S. Khatun and B. Ali, "Ultra-Wideband (UWB) Ad-Hoc Networks: Review and Trends", Journal of Computer Science 1, Pages (35-39), 2005.
[3] H. Arslan, Z. Chen and M. Gabriella, "Ultra-Wideband Wireless Communication", John Wiley & Sons, Inc., 2006.
[4] C. Jung, J. Chong and Y. Hong, "Orthogonal Time Hopping Multiple Access for UWB Impulse Radio Communications", Asia-Pacific Conference on Communications, Perth, Western Australia, October 2005.
[5] L. Nardis, G. Giancola and M. Benedetto, "A Power-Efficient Routing Metric for UWB Wireless Mobile Networks", Proc. of Vehicular Technology Conference, Orlando, USA, October 2003.
[6] M. Ghavami, L. Michael and R. Kohno, "Ultra-Wideband Signals and Systems in Communication Engineering", John Wiley & Sons, Ltd, 2004.
[7] Y. Li, A. Molisch and J. Zhang, "Channel Estimation and Signal Detection for UWB", International Symposium on Wireless Personal Multimedia Communications (WPCM), October 2003.
[8] A. El Fawal and J. Boudec, "A Power Independent Detection Method for Ultra-Wideband (UWB) Impulse Radio Networks", IEEE International Conference on Ultra-Wideband, (ICU), 2005.
[9] W. Lovelace and J. Townsend, "Threshold Discrimination and Blanking for Large Near–Far Power Ratios in UWB Networks", IEEE Transactions on Communications, Vol. 53, No. 9, September 2005.
[10] A. Deleuze, P. Ciblat and C. Martret, "Rake Receiver Improvement for Residual Interference Cancellation in UWB Context", IEEE Vehicular Technology Conference (VTC), Dublin (Irlande), April 2007.
[11] Y. Chao and R. Scholtz, "Optimal and Suboptimal Receivers for Ultra-Wideband Transmitted Reference Systems", in Proc IEEE Globecom, Pages (759-763), Dec. 2003.
[2] R. Saeed, S. Khatun and B. Ali, "Ultra-Wideband (UWB) Ad-Hoc Networks: Review and Trends", Journal of Computer Science 1, Pages (35-39), 2005.
[3] H. Arslan, Z. Chen and M. Gabriella, "Ultra-Wideband Wireless Communication", John Wiley & Sons, Inc., 2006.
[4] C. Jung, J. Chong and Y. Hong, "Orthogonal Time Hopping Multiple Access for UWB Impulse Radio Communications", Asia-Pacific Conference on Communications, Perth, Western Australia, October 2005.
[5] L. Nardis, G. Giancola and M. Benedetto, "A Power-Efficient Routing Metric for UWB Wireless Mobile Networks", Proc. of Vehicular Technology Conference, Orlando, USA, October 2003.
[6] M. Ghavami, L. Michael and R. Kohno, "Ultra-Wideband Signals and Systems in Communication Engineering", John Wiley & Sons, Ltd, 2004.
[7] Y. Li, A. Molisch and J. Zhang, "Channel Estimation and Signal Detection for UWB", International Symposium on Wireless Personal Multimedia Communications (WPCM), October 2003.
[8] A. El Fawal and J. Boudec, "A Power Independent Detection Method for Ultra-Wideband (UWB) Impulse Radio Networks", IEEE International Conference on Ultra-Wideband, (ICU), 2005.
[9] W. Lovelace and J. Townsend, "Threshold Discrimination and Blanking for Large Near–Far Power Ratios in UWB Networks", IEEE Transactions on Communications, Vol. 53, No. 9, September 2005.
[10] A. Deleuze, P. Ciblat and C. Martret, "Rake Receiver Improvement for Residual Interference Cancellation in UWB Context", IEEE Vehicular Technology Conference (VTC), Dublin (Irlande), April 2007.
[11] Y. Chao and R. Scholtz, "Optimal and Suboptimal Receivers for Ultra-Wideband Transmitted Reference Systems", in Proc IEEE Globecom, Pages (759-763), Dec. 2003.
Published
2015-10-01
How to Cite
Hassan, A. S. (2015). Matlab- Based Interference Mitigation in WPAN IR-UWB. Wasit Journal of Engineering Sciences, 3(2), 1-14. https://doi.org/10.31185/ejuow.Vol3.Iss2.36
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