A Secured Smart Home Switching System based on Wireless Communications and Self-Energy Harvesting

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Publication Details

Author list: Zungeru AM, Gaboitaolelwe J, Diarra B, Chuma JM, Ang LM, Kolobe L, David M, Zibani I

Publisher: Institute of Electrical and Electronics Engineers

Place: PISCATAWAY

Publication year: 2019

Journal: IEEE Access (2169-3536)

Journal acronym: IEEE ACCESS

Volume number: 7

Start page: 25063

End page: 25085

Number of pages: 23

ISSN: 2169-3536

eISSN: 2169-3536

Languages: English-Great Britain (EN-GB)

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Abstract

Due to human influence and its negative impacts on the world's environment, the world is changing into a cleaner and more sustainable energy system. In both private and public buildings, there is a desire to reduce electricity usage, automate appliances, and optimize the electricity usage of a building. This paper presents the design and implementation of a secured smart home switching system based on wireless communications and self-energy harvesting. The proposed secured smart home switching system integrates access control of the building's electricity, energy harvesting, and storage for the active electronic components and circuitries, and wireless communication for smart switches and sockets. The paper gives two contributions to the design of smart home systems: 1) A practical design and implementation of security (access control system) for a building's power supply which adds a locking feature such that only authorized personnel are capable of altering the power state of the smart sockets and switches in a building, and; 2) A model of energy harvesting and storage system for the active electronic components of the circuitries and wireless communication for smart switches and sockets. The access control involves four stages (a control unit, a comparator unit, a memory unit, and the switching unit). The access control system provides means of access control by having a security keypad that switches ON or OFF the building's electricity, provided the user knows the security pin code (8 coded pins). The proposed system also harvests and stores energy for all the active electronic devices using a photovoltaic system with ultracapacitor energy buffer. The designed secured smart home utilized smart power and switches, and message queuing telemetry transport for ease of controlling energy usage. The experimental results obtained from extensive testing of the prototype shows an improvement in security and energy management in a building.

Keywords

energy harvesting, photovoltaic system, security pin code, smart hub, smart socket, smart switches, Switching system, ultracapacitor, wireless communication, zigbee protocol

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