Hybrid artificial intelligent algorithm for call admission control in WCDMA mobile network
In wideband code division multiple access (WCDMA) mobile network, total transmission power of Node B depends on diverse factors such as accommodation of new service request, termination of active user equipment (UE) and movement of UE. This makes power prediction a complicated task. In this paper, s...
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my.uniten.dspace-297092023-12-28T15:41:44Z Hybrid artificial intelligent algorithm for call admission control in WCDMA mobile network Tee Y.K. Tiong S.K. Johnny K.S.P. Yeoh E.C. 55031013900 15128307800 22951210700 57213783399 Algorithms Cell membranes Electric load forecasting Image storage tubes Quality of service Wireless telecommunication systems Antenna system Artificial intelligent Call admission control Macro cells Mobile networks New services Power Consumption Power usage Simulation result Support vector regressions Total transmission User equipments Wideband code division multiple access Wireless networks In wideband code division multiple access (WCDMA) mobile network, total transmission power of Node B depends on diverse factors such as accommodation of new service request, termination of active user equipment (UE) and movement of UE. This makes power prediction a complicated task. In this paper, support vector regression (SVR) has been implemented successfully to forecast next interval power consumption at Node B with different type of antenna system. The predicted output is used by WCDMA mobile network to make decision on new service request admission. Genetic algorithm is then applied to form beams with minimum power to cover all UEs in a macro cell. The proposed algorithm, support vector regression assists genetic algorithm (SVRaGA) was tested in a dynamic WCDMA mobile network simulator. Simulation results have shown SVR can predict next cycle power usage at Node B with excellent accuracy and improve the quality of service (QoS) by minimizing dropped calls in the system. � 2008 IEEE. Final 2023-12-28T07:41:44Z 2023-12-28T07:41:44Z 2008 Conference paper 10.1109/NCTT.2008.4814303 2-s2.0-67650254599 https://www.scopus.com/inward/record.uri?eid=2-s2.0-67650254599&doi=10.1109%2fNCTT.2008.4814303&partnerID=40&md5=81f89133d2d6aa674941eef84bbc45b4 https://irepository.uniten.edu.my/handle/123456789/29709 4814303 362 366 Scopus |
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Algorithms Cell membranes Electric load forecasting Image storage tubes Quality of service Wireless telecommunication systems Antenna system Artificial intelligent Call admission control Macro cells Mobile networks New services Power Consumption Power usage Simulation result Support vector regressions Total transmission User equipments Wideband code division multiple access Wireless networks |
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Algorithms Cell membranes Electric load forecasting Image storage tubes Quality of service Wireless telecommunication systems Antenna system Artificial intelligent Call admission control Macro cells Mobile networks New services Power Consumption Power usage Simulation result Support vector regressions Total transmission User equipments Wideband code division multiple access Wireless networks Tee Y.K. Tiong S.K. Johnny K.S.P. Yeoh E.C. Hybrid artificial intelligent algorithm for call admission control in WCDMA mobile network |
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In wideband code division multiple access (WCDMA) mobile network, total transmission power of Node B depends on diverse factors such as accommodation of new service request, termination of active user equipment (UE) and movement of UE. This makes power prediction a complicated task. In this paper, support vector regression (SVR) has been implemented successfully to forecast next interval power consumption at Node B with different type of antenna system. The predicted output is used by WCDMA mobile network to make decision on new service request admission. Genetic algorithm is then applied to form beams with minimum power to cover all UEs in a macro cell. The proposed algorithm, support vector regression assists genetic algorithm (SVRaGA) was tested in a dynamic WCDMA mobile network simulator. Simulation results have shown SVR can predict next cycle power usage at Node B with excellent accuracy and improve the quality of service (QoS) by minimizing dropped calls in the system. � 2008 IEEE. |
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55031013900 |
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55031013900 Tee Y.K. Tiong S.K. Johnny K.S.P. Yeoh E.C. |
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Conference paper |
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Tee Y.K. Tiong S.K. Johnny K.S.P. Yeoh E.C. |
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Tee Y.K. |
title |
Hybrid artificial intelligent algorithm for call admission control in WCDMA mobile network |
title_short |
Hybrid artificial intelligent algorithm for call admission control in WCDMA mobile network |
title_full |
Hybrid artificial intelligent algorithm for call admission control in WCDMA mobile network |
title_fullStr |
Hybrid artificial intelligent algorithm for call admission control in WCDMA mobile network |
title_full_unstemmed |
Hybrid artificial intelligent algorithm for call admission control in WCDMA mobile network |
title_sort |
hybrid artificial intelligent algorithm for call admission control in wcdma mobile network |
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2023 |
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1806426634978328576 |