Power optimization of IoT devices scanning wireless fingerprint
The Internet of Things (IoT) though has changed the way devices are interacted with, its use with battery powered devices raises an energy efficiency problem. This project deals with the energy optimization of an ESP32 based self-localizing and data transmitting device that uses Wi-Fi access p...
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Format: | Final Year Project |
Language: | English |
Published: |
Nanyang Technological University
2024
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Online Access: | https://hdl.handle.net/10356/181754 |
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Institution: | Nanyang Technological University |
Language: | English |
Summary: | The Internet of Things (IoT) though has changed the way devices are interacted with, its use
with battery powered devices raises an energy efficiency problem. This project deals with the
energy optimization of an ESP32 based self-localizing and data transmitting device that uses
Wi-Fi access points and a motion sensor to locate itself and transmit data to a remote sever
over an ESP32 microcontroller. The microcontroller has various low power features like deep
sleep which can dramatically lower power usage. The introduction of techniques like deep
sleep timers, optimization of Wi-Fi and LTE communication and optimization of dynamic
frequency scaling are meant to conserve battery life.
The main purpose of the device is to create a device that works to minimize energy usage and
deliver reasonable performance without having to sacrifice on functionality. When the device
is not in use, the self-localizing function is put under deep sleep mode and is programmed to
periodically wake to search for Wi-Fi access points, take readings from the motion sensor and
transmit the data. Compared to the baseline, the self-localizing device is estimated to operate
with over 60% lower power thereof reducing the operating expenses.
By engaging in hardware analysis and performing software changes, this device still
showcases operational capabilities whilst saving significant energy as evidenced by this
research. The data suggests that the approaches used will in the future enhance the battery
longevity of the device, thereby making it highly ideal for prolonged IoT applications in
remote areas or places with limited power supply. |
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