WCDMA teletraffic performance improvement via power resource optimization using distributed parallel genetic algorithm
WCDMA mobile communication systems provide enhanced high-speed data, multimedia, and voice services to mobile users. The integration of such heterogeneous traffic types implies that the network must provide differentiated Quality of Service (QoS). Beam forming techniques have been proposed to increa...
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my.uniten.dspace-60042018-01-14T23:55:04Z WCDMA teletraffic performance improvement via power resource optimization using distributed parallel genetic algorithm Prajindra, S.K. Tiong, S.K. Johnny Koh, S.P. Yap, D.F.W. WCDMA mobile communication systems provide enhanced high-speed data, multimedia, and voice services to mobile users. The integration of such heterogeneous traffic types implies that the network must provide differentiated Quality of Service (QoS). Beam forming techniques have been proposed to increase the spectral efficiency of the wireless channel. In this work, a new microcontroller board was designed and developed with Genetic Algorithm (GA) embedded on board. The embedded GA optimization scheme was based on minimum downlink power consumption tailored for a WCDMA network that employs adaptive antennas in support of a heterogeneous user mix. The algorithm works by finding the minimum transmitter power with the help of Distributed Parallel Genetic Algorithm (DPGA) employed on an offload microcontroller system to form optimal beam coverage to reduce power usage of adaptive antenna at WCDMA base station. The power usage at Node B is used as fitness function to compare the performance of DPGA and conventional GA (cGA). Simulation results show that DPGA converges faster and is superior in power resource management and returns better teletraffic performance in system outage and capacity. 2017-12-08T07:49:39Z 2017-12-08T07:49:39Z 2009 Conference Paper https://www.scopus.com/record/display.uri?eid=2-s2.0-84923413356&origin=resultslist&sort=plf-f&src=s&sid=f1bf85fa2851de32eb36da4f0776d3eb&sot en_US BROADBANDCOM 2009 - Selected Papers on Broadband Communication, Information Technology and Biomedical Applications 2009, Pages 277-282 |
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WCDMA mobile communication systems provide enhanced high-speed data, multimedia, and voice services to mobile users. The integration of such heterogeneous traffic types implies that the network must provide differentiated Quality of Service (QoS). Beam forming techniques have been proposed to increase the spectral efficiency of the wireless channel. In this work, a new microcontroller board was designed and developed with Genetic Algorithm (GA) embedded on board. The embedded GA optimization scheme was based on minimum downlink power consumption tailored for a WCDMA network that employs adaptive antennas in support of a heterogeneous user mix. The algorithm works by finding the minimum transmitter power with the help of Distributed Parallel Genetic Algorithm (DPGA) employed on an offload microcontroller system to form optimal beam coverage to reduce power usage of adaptive antenna at WCDMA base station. The power usage at Node B is used as fitness function to compare the performance of DPGA and conventional GA (cGA). Simulation results show that DPGA converges faster and is superior in power resource management and returns better teletraffic performance in system outage and capacity. |
format |
Conference Paper |
author |
Prajindra, S.K. Tiong, S.K. Johnny Koh, S.P. Yap, D.F.W. |
spellingShingle |
Prajindra, S.K. Tiong, S.K. Johnny Koh, S.P. Yap, D.F.W. WCDMA teletraffic performance improvement via power resource optimization using distributed parallel genetic algorithm |
author_facet |
Prajindra, S.K. Tiong, S.K. Johnny Koh, S.P. Yap, D.F.W. |
author_sort |
Prajindra, S.K. |
title |
WCDMA teletraffic performance improvement via power resource optimization using distributed parallel genetic algorithm |
title_short |
WCDMA teletraffic performance improvement via power resource optimization using distributed parallel genetic algorithm |
title_full |
WCDMA teletraffic performance improvement via power resource optimization using distributed parallel genetic algorithm |
title_fullStr |
WCDMA teletraffic performance improvement via power resource optimization using distributed parallel genetic algorithm |
title_full_unstemmed |
WCDMA teletraffic performance improvement via power resource optimization using distributed parallel genetic algorithm |
title_sort |
wcdma teletraffic performance improvement via power resource optimization using distributed parallel genetic algorithm |
publishDate |
2017 |
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1644493820376645632 |
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13.222552 |