International Journal of Modern Science and Technology
International Journal of Modern Science and Technology, Vol. 2, Special Issue 1, 2017, Pages 76-82.
Hardware Architecture for IoT Based Smart Power Management System
S. Kiruthiga, G. Balasubramanian, R. Malarvannan
Department of Electrical and Electronics Engineering, Arasu Engineering College, Kumbakonam – 612 501. India.
*Corresponding author’s e-mail: keerthilakshmi251193@gmail.com
Abstract
The paper presents IOT based smart power management system. The system principally monitors and controls electrical parameters such as voltage and current and subsequently calculates the power consumed. The main goal of this project is to develop a newly equipped well designed prototype for consumers to provide secured power. The innovation of this system is controlling mechanism implementation. For controlling parameters, it sends a intimation to the user when the parameter exceeds their predefined values. The controlling process of electrical parameters that can be programmed using a ATMEGA32 controller and monitor even via mobile phone or PC from anywhere in the world. . To provide more confidentiality to the consumer, Trust Security Privacy (TSP) algorithm is used. To provide a high degree of security user or authenticator id is given by server to consumers. Due to that users only access their corresponding loads. Also, the proposed system is a user authentication, economical and easily operable. The system is a flexible and low cost and accordingly can save electricity outflow due to that we can save electricity expense of the consumers. To avoid a power theft, Power Theft Detection Algorithm (PTDA) was proposed and simulations are carried out in proteus software. Thus, the real-time monitoring of the electrical parameters can be observed over a website.
Keywords: Internet of Things; Power Theft Detection Algorithm; Trust Security Privacy; Sensors; Proteus software.
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