DSP for Mobile Wireless LTE System: A Review
DOI:
https://doi.org/10.25212/lfu.qzj.2.2.23Keywords:
LTE, MIMO, OFDM, OFDMA, smart antenna technology, wireless network.Abstract
Long term evolution (LTE) is the last step towards the 4G of radio technologies designed to increase the capacity and speed of cellular networks. With the appearing of 4G LTE networks, there has been increasing interests and special attention is paid to the performance and power characteristics as compared with 3G networks. This paper provides detailed information about mobile wireless MIMO-LTE system. It is also presents a brief explanation of the characteristics, performance and state of art techniques used within mobile wireless MIMO-LTE system. There are several types of commercial digital signal processing (DSP) chips available in marks which can be used with MIMO- LTE system. Therefore, this work will be focuses on the applications of commercial DSPs in MIMO-LTE system and taking into consideration types and characteristics where can enables efficient baseband processing for 3G,4G and MIMO-LTE wireless system equipment with its scalable, highperformance architecture.
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References
RimvydasAleksiejunas, "Simulation Framework for MIMO LTE Network Performance Analysis," Innovative Infotechnolojies for science, Vol. 2(15), 2013, pp. 9-13.
Z. Guennoun, and M. Jaloun, “Wireless Mobile Evolution to 4G Network,” Wireless Sensor Network, vol.02, pp. 309-317, 2010.
J. Huang, F. Qian, A. Gerber, Z. M. Mao, S. Sen, and O. Spatscheck. "A Close Examination of Performance and Power Characteristics of 4G LTE Networks", In MobiSys, 2012.
L. Hanzo, J. Akhtman, L. Wang, and M. Jiang. MIMO-OFDM for LTE, Wi-Fi, and WiMAX: coherent versus non-coherent and cooperative turbo-transceivers. Chichester, West Sussex, U.K. ; Hoboken, N.J: Wiley, 2011.
Brian Stetler, “F.C.C. Chairman: We Need to Auction Off More Spectrum,” Gadgetwise (blog), New York Times, January 7, 2011
S. Sesia. I. Toufik, M. Baker, LTE – The UMTS Long Term Evolution: A Pocket Dictionary of Acronyms, Wiley, 2009
Sanjay Kumar Sarkar, “A Long Term Evolution (LTE) Downlink (DL) inspired channel simulator using the SUI 3 channel model”, Blekinge Institute of Technology, 3,15, August, 2009
L. Hanzo, J. Akhtman, L. Wang, and M. Jiang. MIMO-OFDM for LTE, Wi-Fi, and WiMAX: coherent versus non-coherent and cooperative turbo-transceivers. – Chichester, West Sussex, U.K. ; Hoboken, N.J: Wiley, 2011.
J. G. Andrews, W. Choi, and R. W. Heath. Overcoming interference in spatial multiplexing MIMO cellular networks. – Wireless Communications, IEEE 14(6) (2007) 95–104.
Jim Zyren, Dr. Wes McCoy, "Overview of the 3GPP LTE physical layer", freescale TM, 3, 2007.
http://eeecommunity.blogspot.com .
A. N. Kulkarni, S. K. Sharman, “A band Antenna with MIMO Implementation for U4G LTE Wireless Devices,” In: Proceedings of the IEEE APSURSI, vol.3, pp. 2215-2218, 2011.
S. Sesia, I. Toufik, M. Baker (eds), LTE – The UMTS Long Term Evolution: From Theory to Practice, Wiley, 2009
Kalis, A., A. G. Kanatas, and C. B. Papadias, Parasitic Antenna Arrays for Wireless MIMO Systems, Springer, New York; Heidelberg; Dordrecht; London, 2014
M. Chang, Z. Abichar, and C.-Y. Hsu, “Wimax or lte: Who will lead the broadband mobile internet?” IT Professional, vol. 12, no. 3, pp. 26 –32, 2010.
R. Nossenson, “Long-term evolution network architecture,” in Microwaves, Communications, Antennas and Electronics Systems, 2009.
Wikipedia the free encyclopedia, “4G” Available: Wikipedia online: http://en.wikipedia.org/wiki/4G [Accessed: Nov 11, 2008]
R. Aleksiejunas, J. Aleksandravicius, J. Krivochiza, and K. Svirskas. Analysis of radar interference effects on MIMO LTE downlink performance. // Submitted to EMC Europe 2014.
Z. Zhuang, T.-Y. Chang, R. Sivakumar, and A. Velayutham. "A3: Application-Aware Acceleration for Wireless Data Networks" . In MOBICOM, 2006.
G. Su, “Research on 4G mobile Communications Network Applications of TD-LTE standard”, Information and Communications, vol.7, pp. 221-222, 2013.
IEEE, IEEE Standard for local and metropolitan area networks / Part 16: Air interface for broadband wireless access Systems”, New York, 2009.
Baber Aslam, “IEEE 802.11 wireless network simulator using Verilog”, 11th WSEAS International Conference on communications, AgiosNikolaos, Crete Island, Greece, July 26-28, 2007.
E. Kačerginskis, L. Narbutaitė, ” Mathematical model based software design for simulation of 4G wireless protocols" , INTERNATIONAL JOURNAL OF COMPUTERS AND COMMUNICATIONS, Issue 2, Volume 7, 2013
J. Huang, Q. Xu, B. Tiwana, Z. M. Mao, M. Zhang, and P. Bahl. Anatomizing Application Performance Differences on Smartphones. In MobiSys, 2010.
Sanjit K Mitra, "Digital Signal Processing Applications", Wiley, 2010.
Sedaghat, M., R. Muller, and G. Fisher, "A novel single-RF transmitter for massive MIMO," Proc. ITG Workshop on Smart Antennas, 1-8, Mar. 2014
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Copyright (c) 2017 Ashwaq Q. Hameed , Salman goli, Mohammed K. shoubith
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