Difference between revisions of "Projects:2016s2-245 RFID in a Light Bulb"
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== '''project team''' == | == '''project team''' == | ||
− | + | '''Academic Supevisors''' | |
− | |||
Dr. Said Al-Sarawi | Dr. Said Al-Sarawi | ||
Dr. Damith Ranasinghe | Dr. Damith Ranasinghe | ||
− | + | '''team members''' | |
ZEYU WANG | ZEYU WANG | ||
RAN YE | RAN YE | ||
+ | |||
+ | == '''Introduction''' == | ||
+ | the development of a permanent power source for self-sustainable wireless sensor networks is essential in order to reduce the maintenance costs and increase the operational time of sensor nodes. Accordingly,over the past decade researchers have actively studied various energy harvesters that generate power form sources such as ambient light, heat, motion, electromagnetic waves and other unused sources of energy. One energy harvester driven by ambient vibrations has attracted special attention because it can easily gain energy form sources of movement such as human physical motion. This project states a liquid-based electrostatic energy harvester that converts the mechanical energy of human-motion-induced vibrations to electrical energy. |
Revision as of 00:03, 22 August 2016
project team
Academic Supevisors Dr. Said Al-Sarawi Dr. Damith Ranasinghe
team members
ZEYU WANG RAN YE
Introduction
the development of a permanent power source for self-sustainable wireless sensor networks is essential in order to reduce the maintenance costs and increase the operational time of sensor nodes. Accordingly,over the past decade researchers have actively studied various energy harvesters that generate power form sources such as ambient light, heat, motion, electromagnetic waves and other unused sources of energy. One energy harvester driven by ambient vibrations has attracted special attention because it can easily gain energy form sources of movement such as human physical motion. This project states a liquid-based electrostatic energy harvester that converts the mechanical energy of human-motion-induced vibrations to electrical energy.