Energy Efficiency Trade-Off Between Duty-Cycling and Wake-Up Radio Techniques in IoT Networks
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DOI: 10.1007/s11277-019-06368-0
Abstract: Energy consumption has become dominant issue for wireless internet of things (IoT) networks with battery-powered nodes. The prevailing mechanism allowing to reduce energy consumption is duty-cycling. In this technique the node sleeps most of the… read more here.
Keywords: duty cycling; duty; energy; wake radio ... See more keywords
Sleepy Devices Versus Radio Duty Cycling: The Case of Lightweight M2M
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DOI: 10.1109/jiot.2018.2871721
Abstract: Standard protocols for wireless Internet of Things (IoT) communication must be energy-efficient in order to prolong the lifetimes of IoT devices. Two energy-saving strategies for wireless communication are prevalent within the IoT domain: 1) sleepy… read more here.
Keywords: sleepy devices; duty cycling; radio duty; energy saving ... See more keywords
Modeling of Intelligent Sensor Duty Cycling for Smart Home Automation
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DOI: 10.1109/tase.2021.3084631
Abstract: The advancement of wireless sensor networks (WSNs) improves various smart home automation services and home users’ living standards. However, efficiently collecting data and automating smart home services require the extensive deployment of the sensors. Thus,… read more here.
Keywords: home users; duty cycling; energy; smart home ... See more keywords
Interference Resilient Duty Cycling for Sensor Networks Under Co-Existing Environments
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DOI: 10.1109/tcomm.2017.2692758
Abstract: To save energy, wireless sensor networks often run in a low-duty-cycle mode, where the radios of sensor nodes are scheduled between ON and OFF states. For nodes to communicate with each other, low power listening… read more here.
Keywords: existing environments; duty cycling; duty; interference ... See more keywords