Demo abstract: Simultaneous energy harvesting and sensing using piezoelectric energy harvester
With the capability to harvest energy from low frequency motions or vibrations, piezoelectric energy harvesting has become a promising solution to achieve battery-less wearable system. Recently, many works have convincingly demonstrated that PEH can also act as a self-powered sensor for detecting a...
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sg-smu-ink.sis_research-80032022-03-17T15:16:32Z Demo abstract: Simultaneous energy harvesting and sensing using piezoelectric energy harvester MA, Dong LAN, Guohao XU, Weitao HASSAN, Mahbub HU, Wen With the capability to harvest energy from low frequency motions or vibrations, piezoelectric energy harvesting has become a promising solution to achieve battery-less wearable system. Recently, many works have convincingly demonstrated that PEH can also act as a self-powered sensor for detecting a wide range of machine and human contexts, which suggests that energy harvesting and sensing can be performed concurrently. However, realization of simultaneous energy harvesting and sensing (SEHS) is challenging as the energy harvesting process distorts the sensing signal. In this demo, we propose a novel SEHS architecture prototyped in the form factor of an insole, which combines energy harvesting and sensing in the same piece of PEH. Meanwhile, a special filtering algorithm is applied to minimize the distortion in the sensing signal. 'is demo complements the paper "SEHS: Simultaneous Energy Harvesting and Sensing using Piezoelectric Energy Harvester" to be presented at IoTDI'18. 2018-04-01T07:00:00Z text application/pdf https://ink.library.smu.edu.sg/sis_research/7000 info:doi/10.1109/iotdi.2018.00053 https://ink.library.smu.edu.sg/context/sis_research/article/8003/viewcontent/631201a308.pdf http://creativecommons.org/licenses/by-nc-nd/4.0/ Research Collection School Of Computing and Information Systems eng Institutional Knowledge at Singapore Management University Piezoelectric energy harvesting simultaneous energy harvesting and sensing context detection from energy harvesting Artificial Intelligence and Robotics Theory and Algorithms |
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Piezoelectric energy harvesting simultaneous energy harvesting and sensing context detection from energy harvesting Artificial Intelligence and Robotics Theory and Algorithms MA, Dong LAN, Guohao XU, Weitao HASSAN, Mahbub HU, Wen Demo abstract: Simultaneous energy harvesting and sensing using piezoelectric energy harvester |
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With the capability to harvest energy from low frequency motions or vibrations, piezoelectric energy harvesting has become a promising solution to achieve battery-less wearable system. Recently, many works have convincingly demonstrated that PEH can also act as a self-powered sensor for detecting a wide range of machine and human contexts, which suggests that energy harvesting and sensing can be performed concurrently. However, realization of simultaneous energy harvesting and sensing (SEHS) is challenging as the energy harvesting process distorts the sensing signal. In this demo, we propose a novel SEHS architecture prototyped in the form factor of an insole, which combines energy harvesting and sensing in the same piece of PEH. Meanwhile, a special filtering algorithm is applied to minimize the distortion in the sensing signal. 'is demo complements the paper "SEHS: Simultaneous Energy Harvesting and Sensing using Piezoelectric Energy Harvester" to be presented at IoTDI'18. |
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MA, Dong LAN, Guohao XU, Weitao HASSAN, Mahbub HU, Wen |
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MA, Dong LAN, Guohao XU, Weitao HASSAN, Mahbub HU, Wen |
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MA, Dong |
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Demo abstract: Simultaneous energy harvesting and sensing using piezoelectric energy harvester |
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Demo abstract: Simultaneous energy harvesting and sensing using piezoelectric energy harvester |
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Demo abstract: Simultaneous energy harvesting and sensing using piezoelectric energy harvester |
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Demo abstract: Simultaneous energy harvesting and sensing using piezoelectric energy harvester |
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Demo abstract: Simultaneous energy harvesting and sensing using piezoelectric energy harvester |
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demo abstract: simultaneous energy harvesting and sensing using piezoelectric energy harvester |
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Institutional Knowledge at Singapore Management University |
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2018 |
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https://ink.library.smu.edu.sg/sis_research/7000 https://ink.library.smu.edu.sg/context/sis_research/article/8003/viewcontent/631201a308.pdf |
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