International Journal of Advanced Computing and Communication Systems

Improved 3-D Beamforming Strategy for 5g Multimedia Mobile Communication

Santhiya P, Dept of Computer science & Engineering, Christian College of Engineering and Technology, Oddanchatram, Tamil Nadu, India.

Sasi A, Sansas technologies, Coimbatore, Tamil Nadu, India.

International Journal of Advanced Computing and Communication Systems

ISSN (Online) : 2347 - 9299

ISSN (Print) : 2347 - 9280

Received On : 04 January 2014

Revised On : 04 February 2014

Accepted On : 15 February 2014

Published On : 05 March 2014

Volume 01, Issue 01

Page No : 026-029

Abstract

Main objective of mobile communication system is to give improved multimedia communication services for more number of mobile devices with low cost. This objective leads to a big challenge for the wireless communication that is increasing system capacity and network quality within the limited frequency spectrum resources. The problem in mobile communication system is to establish communication by using limited frequency and resources. Next generation 5G mobile communication is completely designed by beamforming strategy. This mobile communication model uses IEEE 802.11ac standard. In this model phase array antenna is used to establish communication between base station and mobile devices. Instead of phase array antenna, 3-D smart antenna array can be used to improve the performance of multimedia transmission. 3-D smart antenna is configured to process MIMO communication. As the trend of modern mobile communication, 3-D directional transmission is considered to provide better coverage and frequency reuse. Performance evaluation shows 3-D smart antenna provides efficient results compared to 2D smart antenna in terms of uplink and downlink throughput.

Keywords

802.11ac, MIMO, beamforming, 3-D smart antenna, BDMA.

Cite this Article

Santhiya P and Sasi A, “Improved 3-D Beamforming Strategy for 5g Multimedia Mobile Communication,” International Journal of Advanced Computing and Communication Systems, pp. 026-029, March, 2014.

Copyright

© 2014 Santhiya P and Sasi A. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.