Presence Aware Power Saving Mode (PA-PSM) enhancement for IoT devices for energy conservation
Affiliation
University of BedfordshireIssue Date
2019-09-04Subjects
automation controllerIoT
Internet of Things
energy efficiency
energy consumption
Arduino Uno R3
J910 Energy Technologies
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Show full item recordAbstract
The Internet of Things has brought a vision to turn the digital object into smart devices by adding an intelligence system and thereafter connecting them to the internet world. These smart devices accumulate environmental information with the help of sensors and act consequently without human intervention. The Internet of Thing is a rapidly growing industry with expected 50 - 200 billion smart devices to connect to the internet. Multi-billions of smart devices will produce a substantial amount of data to provide services to human society, although, it will lead to increase energy consumption at the highest level and drive to high energy bills. Moreover, the flood of IoT devices may also lead to energy scarcity. IoT is nowadays mainly focused on the IT industry and researchers believe the next wave of IoT may connect 1 trillion sensors by 2025. Even if these sensors would have 10 years of battery life, it will still require 275 million batteries to be replaced every day. Therefore, it is a necessity to reduce energy consumption in smart devices. “Presence Aware Power Saving Mode (PA-PSM) Enhancement for IoT Devices for Energy Conservation”, a proposed novel approach in this research paper by the help of a proposed algorithm in this research paper to reduce power consumption by individual devices within smart homes. In the proposed approach, a centralized automation controller keeps the less priority smart devices into deep sleep mode to save energy and experiments suggest the proposed system may help to reduce 25.81% of the energy consumed by smart devices within the smart home.Citation
Saleem A, Jazani D, Yu H (2019) 'Presence Aware Power Saving Mode (PA-PSM) enhancement for IoT devices for energy conservation', Open Journal of Energy Efficiency, 8, pp.95-128.Publisher
Scientific Research PublishingAdditional Links
https://www.scirp.org/journal/paperinformation.aspx?paperid=94831Type
ArticleLanguage
enISSN
2169-2637EISSN
2169-2645ae974a485f413a2113503eed53cd6c53
10.4236/ojee.2019.83007
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