Artificial intelligent power prediction for efficient resource management of WCDMA mobile network

This paper presents a method of predicting changes of power consumption at Node B of a wideband code division multiple access (WCDMA) mobile network due to dynamic resource allocation such as movement of unit equipment (UE), handover call from adjacent cell and accommodation of new service request....

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Main Authors: Tee Y.K., Tinng S.K., Koh J., David Y.
Other Authors: 55031013900
Format: Conference Paper
Published: 2023
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Institution: Universiti Tenaga Nasional
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spelling my.uniten.dspace-297122024-04-17T10:52:48Z Artificial intelligent power prediction for efficient resource management of WCDMA mobile network Tee Y.K. Tinng S.K. Koh J. David Y. 55031013900 26636199000 22951210700 58254200300 Call admission control Genetic algorithm Quality of service Support vector regression Wideband code division multiple access Access control Code division multiple access Electric power utilization Genetic algorithms Genetic engineering Network management Planning Quality of service Regression analysis Resource allocation Telecommunication services Vectors Wireless networks Wireless telecommunication systems Artificial intelligent Call admission control Dynamic resource allocations Handover Integrated supports Mobile networks New services Optimal beams Power Consumption Prediction errors Resource management Support vector regression Support vector regressions Wideband code division multiple access Quality control This paper presents a method of predicting changes of power consumption at Node B of a wideband code division multiple access (WCDMA) mobile network due to dynamic resource allocation such as movement of unit equipment (UE), handover call from adjacent cell and accommodation of new service request. The method learns the mapping of power consumption at Node B by monitoring power changes that response to previous performed resource allocation. Estimation of the unknown function is implemented with support vector regression (SVR). The output of SVR will be used by WCDMA mobile network to decide on new service admission. Genetic algorithm (GA) is then applied to form optimal beams to cover all UEs in a cell with minimum power. This artificial intelligent call admission control (CAC) was validated using a dynamic WCDMA mobile network simulator. A few comparative results in downlink have shown that our integrated support vector regression assists genetic algorithm (SVRaGA) is capable of predicting next interval power consumption at Node B with low prediction error and improving the quality of service (QoS) by reducing dropped calls. � 2008 IEICE. Final 2023-12-28T07:41:45Z 2023-12-28T07:41:45Z 2008 Conference Paper 2-s2.0-66149134740 https://www.scopus.com/inward/record.uri?eid=2-s2.0-66149134740&partnerID=40&md5=bd41f59929009a9e7b54b5194df53f35 https://irepository.uniten.edu.my/handle/123456789/29712 4773836 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Call admission control
Genetic algorithm
Quality of service
Support vector regression
Wideband code division multiple access
Access control
Code division multiple access
Electric power utilization
Genetic algorithms
Genetic engineering
Network management
Planning
Quality of service
Regression analysis
Resource allocation
Telecommunication services
Vectors
Wireless networks
Wireless telecommunication systems
Artificial intelligent
Call admission control
Dynamic resource allocations
Handover
Integrated supports
Mobile networks
New services
Optimal beams
Power Consumption
Prediction errors
Resource management
Support vector regression
Support vector regressions
Wideband code division multiple access
Quality control
spellingShingle Call admission control
Genetic algorithm
Quality of service
Support vector regression
Wideband code division multiple access
Access control
Code division multiple access
Electric power utilization
Genetic algorithms
Genetic engineering
Network management
Planning
Quality of service
Regression analysis
Resource allocation
Telecommunication services
Vectors
Wireless networks
Wireless telecommunication systems
Artificial intelligent
Call admission control
Dynamic resource allocations
Handover
Integrated supports
Mobile networks
New services
Optimal beams
Power Consumption
Prediction errors
Resource management
Support vector regression
Support vector regressions
Wideband code division multiple access
Quality control
Tee Y.K.
Tinng S.K.
Koh J.
David Y.
Artificial intelligent power prediction for efficient resource management of WCDMA mobile network
description This paper presents a method of predicting changes of power consumption at Node B of a wideband code division multiple access (WCDMA) mobile network due to dynamic resource allocation such as movement of unit equipment (UE), handover call from adjacent cell and accommodation of new service request. The method learns the mapping of power consumption at Node B by monitoring power changes that response to previous performed resource allocation. Estimation of the unknown function is implemented with support vector regression (SVR). The output of SVR will be used by WCDMA mobile network to decide on new service admission. Genetic algorithm (GA) is then applied to form optimal beams to cover all UEs in a cell with minimum power. This artificial intelligent call admission control (CAC) was validated using a dynamic WCDMA mobile network simulator. A few comparative results in downlink have shown that our integrated support vector regression assists genetic algorithm (SVRaGA) is capable of predicting next interval power consumption at Node B with low prediction error and improving the quality of service (QoS) by reducing dropped calls. � 2008 IEICE.
author2 55031013900
author_facet 55031013900
Tee Y.K.
Tinng S.K.
Koh J.
David Y.
format Conference Paper
author Tee Y.K.
Tinng S.K.
Koh J.
David Y.
author_sort Tee Y.K.
title Artificial intelligent power prediction for efficient resource management of WCDMA mobile network
title_short Artificial intelligent power prediction for efficient resource management of WCDMA mobile network
title_full Artificial intelligent power prediction for efficient resource management of WCDMA mobile network
title_fullStr Artificial intelligent power prediction for efficient resource management of WCDMA mobile network
title_full_unstemmed Artificial intelligent power prediction for efficient resource management of WCDMA mobile network
title_sort artificial intelligent power prediction for efficient resource management of wcdma mobile network
publishDate 2023
_version_ 1806427937378926592