Cognitive energy efficient for closed-proximity devices: An empirical study and standardization issues
We describe empirical study findings on the impact of throughput performance when transmission power is adjusted among access points in closed-proximity network devices. The experiment was conducted in an office environment to emulate such wireless LAN network. We introduce a potential energy effici...
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2023
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my.uniten.dspace-225642023-05-29T14:02:04Z Cognitive energy efficient for closed-proximity devices: An empirical study and standardization issues Hashim W. Ismail A.F. Kamrul M.H. Badron K. Raj R.M. Nasir H.A. 11440260100 36602773900 56532507700 35387519800 56996859800 56532389900 We describe empirical study findings on the impact of throughput performance when transmission power is adjusted among access points in closed-proximity network devices. The experiment was conducted in an office environment to emulate such wireless LAN network. We introduce a potential energy efficient mechanism based on cognitively learning one of the attributes which then triggers the power selection. We show that similar throughput performance at the client can be obtained at reduced transmission power thus prevent an access point from maximizing power unnecessarily. We have also evaluated the impact of increasing and reducing power to other neighbouring access points. It was found that the improvement of throughput is increased to 44% maximum. Throughput performance alert is introduced in the mechanism to be aware of sudden throughput changes in the system. � 2006-2015 Asian Research Publishing Network (ARPN). Final 2023-05-29T06:02:04Z 2023-05-29T06:02:04Z 2015 Article 2-s2.0-84923851986 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84923851986&partnerID=40&md5=3abf01288cf39781075147e65e78ac7f https://irepository.uniten.edu.my/handle/123456789/22564 10 3 987 992 Asian Research Publishing Network Scopus |
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We describe empirical study findings on the impact of throughput performance when transmission power is adjusted among access points in closed-proximity network devices. The experiment was conducted in an office environment to emulate such wireless LAN network. We introduce a potential energy efficient mechanism based on cognitively learning one of the attributes which then triggers the power selection. We show that similar throughput performance at the client can be obtained at reduced transmission power thus prevent an access point from maximizing power unnecessarily. We have also evaluated the impact of increasing and reducing power to other neighbouring access points. It was found that the improvement of throughput is increased to 44% maximum. Throughput performance alert is introduced in the mechanism to be aware of sudden throughput changes in the system. � 2006-2015 Asian Research Publishing Network (ARPN). |
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11440260100 |
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11440260100 Hashim W. Ismail A.F. Kamrul M.H. Badron K. Raj R.M. Nasir H.A. |
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Article |
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Hashim W. Ismail A.F. Kamrul M.H. Badron K. Raj R.M. Nasir H.A. |
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Hashim W. Ismail A.F. Kamrul M.H. Badron K. Raj R.M. Nasir H.A. Cognitive energy efficient for closed-proximity devices: An empirical study and standardization issues |
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Hashim W. |
title |
Cognitive energy efficient for closed-proximity devices: An empirical study and standardization issues |
title_short |
Cognitive energy efficient for closed-proximity devices: An empirical study and standardization issues |
title_full |
Cognitive energy efficient for closed-proximity devices: An empirical study and standardization issues |
title_fullStr |
Cognitive energy efficient for closed-proximity devices: An empirical study and standardization issues |
title_full_unstemmed |
Cognitive energy efficient for closed-proximity devices: An empirical study and standardization issues |
title_sort |
cognitive energy efficient for closed-proximity devices: an empirical study and standardization issues |
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Asian Research Publishing Network |
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2023 |
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1806427611012792320 |