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State and Duration Model of Energy Consumption in A Wimax Mobile Device
Author(s) -
Suherman Suherman,
Naemah Mubarakah
Publication year - 2018
Publication title -
international journal of engineering and technology
Language(s) - English
Resource type - Journals
ISSN - 2227-524X
DOI - 10.14419/ijet.v7i3.2.15351
Subject(s) - duration (music) , energy consumption , computer science , battery (electricity) , mobile phone , state (computer science) , test data , real time computing , power (physics) , energy (signal processing) , test (biology) , battery capacity , reliability engineering , simulation , telecommunications , electrical engineering , engineering , statistics , mathematics , art , paleontology , physics , literature , algorithm , quantum mechanics , biology , programming language
Energy consumption in a mobile device becomes a great interest as limited battery source restricts the power to activate the device. Current battery capacity displayed on a mobile phone screen is based on current state. A more precise prediction method is important as the connected application critically depends on the power availability. This paper reports the 802.16 energy assessment and modelling. A state and duration based energy consumption prediction is proposed and compared to simulated energy measurement. The evaluation showed state trend results 0.18% deviation for training data, 0.187% for test data 1 and 0.191% for test data 2. While state and duration trends result 0.194% deviation for training data, 0.211% for test data 1 and 0.215% for test data 2.   

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