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blobel2022low-power
Johannes Blobel, Florian Menne, Dongxiao Yu, Xiuzhen Cheng and Falko Dressler, "Low-power and Low-delay WLAN using Wake-up Receivers," IEEE Transactions on Mobile Computing (TMC), vol. 21 (5), pp. 1739–1750, May 2022.
Abstract
Energy-efficient communication technologies are a key enabler for many IoT applications. Many existing communication protocols are based on duty-cycling techniques, that have an inherent tradeoff between delay and energy consumption. In the field of sensor networks, wake-up receivers have been investigated to overcome these problems and to further reduce energy consumption. We now go one step further and investigate the use of wake-up receivers in combination with IEEE 802.11 WLAN. We extend the protocol used to communicate between the access point and the client to introduce a wake-up signal. This can be implemented in a way that is fully compatible with existing WLAN standards, thus, it can be deployed gradually with little effort and no need to change existing systems. As a proof of concept and to perform first lab experiments, we developed a hardware prototype using a selective wake-up receiver and off-the-shelf USB-WLAN dongles. All experimental results are verified using an analytical model and a detailed simulation study. We show that our wake-up WLAN can provide connectivity for low-power devices with low delays and low energy consumption at the same time.
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Johannes Blobel
Florian Menne
Dongxiao Yu
Xiuzhen Cheng
Falko Dressler
BibTeX reference
@article{blobel2022low-power,
author = {Blobel, Johannes and Menne, Florian and Yu, Dongxiao and Cheng, Xiuzhen and Dressler, Falko},
doi = {10.1109/TMC.2020.3030313},
title = {{Low-power and Low-delay WLAN using Wake-up Receivers}},
pages = {1739--1750},
journal = {IEEE Transactions on Mobile Computing (TMC)},
issn = {1536-1233},
publisher = {IEEE},
month = {5},
number = {5},
volume = {21},
year = {2022},
}
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