A Simple yet Effective Power-Saving Strategy for the Restricted Access Window Mechanism in IEEE 802.11ah Wireless LANs

A Simple yet Effective Power-Saving Strategy for the Restricted Access Window Mechanism in IEEE 802.11ah Wireless LANs

碩士 === 臺北市立大學 === 資訊科學系 === 103 === In the upcoming IEEE 802.11ah standard, frequency bands below 1GHz are adopted for the achievement of lower power consumption and longer distance in response to the growing Internet of Things (IoT). By using the Restricted Access Window (RAW) mechanism, the IEEE 8...

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Main Authors: Weng, Chiao-Ning, 翁巧寧
Other Authors: 梁世聰
Format: Others
Language:zh-TW
Published: 2015
Online Access:http://ndltd.ncl.edu.tw/handle/12657102615139192862
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spelling ndltd-TW-103UT0053940102017-04-29T04:31:39Z http://ndltd.ncl.edu.tw/handle/12657102615139192862 A Simple yet Effective Power-Saving Strategy for the Restricted Access Window Mechanism in IEEE 802.11ah Wireless LANs IEEE 802.11ah無線區域網路中用於受限存取視窗機制之簡單有效省電策略 Weng, Chiao-Ning 翁巧寧 碩士 臺北市立大學 資訊科學系 103 In the upcoming IEEE 802.11ah standard, frequency bands below 1GHz are adopted for the achievement of lower power consumption and longer distance in response to the growing Internet of Things (IoT). By using the Restricted Access Window (RAW) mechanism, the IEEE 802.11ah is anticipated to be able to provide efficient usage of wireless bandwidth for huge amount of IoT devices. In this thesis, we propose a new method for the uplink and downlink slot allocations of the IEEE 802.11ah channel access. Experimental results show that our approach can achieve the lower power consumption and the higher network throughput when compared to existing RAW slot allocation mechanisms. 梁世聰 2015 學位論文 ; thesis 46 zh-TW
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language zh-TW
format Others
sources NDLTD
description 碩士 === 臺北市立大學 === 資訊科學系 === 103 === In the upcoming IEEE 802.11ah standard, frequency bands below 1GHz are adopted for the achievement of lower power consumption and longer distance in response to the growing Internet of Things (IoT). By using the Restricted Access Window (RAW) mechanism, the IEEE 802.11ah is anticipated to be able to provide efficient usage of wireless bandwidth for huge amount of IoT devices. In this thesis, we propose a new method for the uplink and downlink slot allocations of the IEEE 802.11ah channel access. Experimental results show that our approach can achieve the lower power consumption and the higher network throughput when compared to existing RAW slot allocation mechanisms.
author2 梁世聰
author_facet 梁世聰
Weng, Chiao-Ning
翁巧寧
author Weng, Chiao-Ning
翁巧寧
spellingShingle Weng, Chiao-Ning
翁巧寧
A Simple yet Effective Power-Saving Strategy for the Restricted Access Window Mechanism in IEEE 802.11ah Wireless LANs
author_sort Weng, Chiao-Ning
title A Simple yet Effective Power-Saving Strategy for the Restricted Access Window Mechanism in IEEE 802.11ah Wireless LANs
title_short A Simple yet Effective Power-Saving Strategy for the Restricted Access Window Mechanism in IEEE 802.11ah Wireless LANs
title_full A Simple yet Effective Power-Saving Strategy for the Restricted Access Window Mechanism in IEEE 802.11ah Wireless LANs
title_fullStr A Simple yet Effective Power-Saving Strategy for the Restricted Access Window Mechanism in IEEE 802.11ah Wireless LANs
title_full_unstemmed A Simple yet Effective Power-Saving Strategy for the Restricted Access Window Mechanism in IEEE 802.11ah Wireless LANs
title_sort simple yet effective power-saving strategy for the restricted access window mechanism in ieee 802.11ah wireless lans
publishDate 2015
url http://ndltd.ncl.edu.tw/handle/12657102615139192862
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