Embedded parallel distributed artificial intelligent processors for adaptive beam forming in WCDMA system
Genetic algorithms (GAs) are powerful search techniques that are used successfully to solve problems in many different disciplines. One application would be in WCDMA adaptive beam forming technique. Adaptive antenna has dynamic beam to cater for users' needs and provides better capacity for mob...
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my.uniten.dspace-309822023-12-29T15:57:13Z Embedded parallel distributed artificial intelligent processors for adaptive beam forming in WCDMA system Krishnan P.S. Kiong T.S. Koh J. Yap D. 36053261400 15128307800 22951210700 22952562500 Adaptive beam forming Master-slave architecture Parallel distributed genetic algorithm WCDMA Function evaluation Genetic algorithms Image storage tubes Interference suppression Mobile antennas Standards Adaptive antenna Adaptive beam forming Artificial intelligent Beamforming algorithms Convergence performance Distributed genetic algorithms Dynamic parameters Fitness functions Master-slave architecture Mobile communications Multi processor systems Parallel distributed genetic algorithm Power usage Search technique Simulation result W-CDMA system WCDMA Parallel algorithms Genetic algorithms (GAs) are powerful search techniques that are used successfully to solve problems in many different disciplines. One application would be in WCDMA adaptive beam forming technique. Adaptive antenna has dynamic beam to cater for users' needs and provides better capacity for mobile communication but requires more intelligent and advance beam forming algorithm such as genetic algorithm. Compared to Standard GAs, Parallel Distributed GAs promise substantial gain in terms of convergence performance. In this paper, an embedded parallel and distributed genetic algorithm (EPDGA) with dynamic parameter setting on a multiprocessor system is proposed. The proposed scheme applies a master-slave architecture where the total active unit equipments (UE) are distributed to subpopulations (slaves) that evolve separately and exchange individuals occasionally. The power usage at Node B is used as fitness function to compare the performance of EPDGA and standard GA. Simulation results show that EPDGA converges faster and is better in adaptive antenna beam forming in the aspect of power usage at Node B as compared to standard GA. � 2008 IEEE. Final 2023-12-29T07:57:13Z 2023-12-29T07:57:13Z 2008 Conference paper 10.1109/NCTT.2008.4814302 2-s2.0-67650159331 https://www.scopus.com/inward/record.uri?eid=2-s2.0-67650159331&doi=10.1109%2fNCTT.2008.4814302&partnerID=40&md5=7827f63fab872eecd53f1e0bcb08d5d6 https://irepository.uniten.edu.my/handle/123456789/30982 4814302 356 361 Scopus |
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Adaptive beam forming Master-slave architecture Parallel distributed genetic algorithm WCDMA Function evaluation Genetic algorithms Image storage tubes Interference suppression Mobile antennas Standards Adaptive antenna Adaptive beam forming Artificial intelligent Beamforming algorithms Convergence performance Distributed genetic algorithms Dynamic parameters Fitness functions Master-slave architecture Mobile communications Multi processor systems Parallel distributed genetic algorithm Power usage Search technique Simulation result W-CDMA system WCDMA Parallel algorithms |
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Adaptive beam forming Master-slave architecture Parallel distributed genetic algorithm WCDMA Function evaluation Genetic algorithms Image storage tubes Interference suppression Mobile antennas Standards Adaptive antenna Adaptive beam forming Artificial intelligent Beamforming algorithms Convergence performance Distributed genetic algorithms Dynamic parameters Fitness functions Master-slave architecture Mobile communications Multi processor systems Parallel distributed genetic algorithm Power usage Search technique Simulation result W-CDMA system WCDMA Parallel algorithms Krishnan P.S. Kiong T.S. Koh J. Yap D. Embedded parallel distributed artificial intelligent processors for adaptive beam forming in WCDMA system |
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Genetic algorithms (GAs) are powerful search techniques that are used successfully to solve problems in many different disciplines. One application would be in WCDMA adaptive beam forming technique. Adaptive antenna has dynamic beam to cater for users' needs and provides better capacity for mobile communication but requires more intelligent and advance beam forming algorithm such as genetic algorithm. Compared to Standard GAs, Parallel Distributed GAs promise substantial gain in terms of convergence performance. In this paper, an embedded parallel and distributed genetic algorithm (EPDGA) with dynamic parameter setting on a multiprocessor system is proposed. The proposed scheme applies a master-slave architecture where the total active unit equipments (UE) are distributed to subpopulations (slaves) that evolve separately and exchange individuals occasionally. The power usage at Node B is used as fitness function to compare the performance of EPDGA and standard GA. Simulation results show that EPDGA converges faster and is better in adaptive antenna beam forming in the aspect of power usage at Node B as compared to standard GA. � 2008 IEEE. |
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36053261400 |
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36053261400 Krishnan P.S. Kiong T.S. Koh J. Yap D. |
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Conference paper |
author |
Krishnan P.S. Kiong T.S. Koh J. Yap D. |
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Krishnan P.S. |
title |
Embedded parallel distributed artificial intelligent processors for adaptive beam forming in WCDMA system |
title_short |
Embedded parallel distributed artificial intelligent processors for adaptive beam forming in WCDMA system |
title_full |
Embedded parallel distributed artificial intelligent processors for adaptive beam forming in WCDMA system |
title_fullStr |
Embedded parallel distributed artificial intelligent processors for adaptive beam forming in WCDMA system |
title_full_unstemmed |
Embedded parallel distributed artificial intelligent processors for adaptive beam forming in WCDMA system |
title_sort |
embedded parallel distributed artificial intelligent processors for adaptive beam forming in wcdma system |
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2023 |
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1806424479371362304 |
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