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研究生: 吳宗哲
TSUNG-CHE WU
論文名稱: 無線區域網路IEEE 802.11(e) 中以競爭為基礎的吞吐量與服務品質分析改善之研究
Throughput Analysis , Improvement and QoS Differentiation in Contention Based IEEE 802.11(e) WLANs
指導教授: 黃政吉
Huang, Jeng-Ji
學位類別: 碩士
Master
系所名稱: 電機工程學系
Department of Electrical Engineering
論文出版年: 2009
畢業學年度: 97
語文別: 中文
論文頁數: 44
中文關鍵詞: 分散式協調功能加強型分散式通道存取吞吐量服務品質
英文關鍵詞: 802.11 DCF, 802.11e EDCA, throughput, QoS
論文種類: 學術論文
相關次數: 點閱:191下載:8
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  • 在現在這個資訊爆炸的時代,利用網路交換或是獲得所想要的資訊已經是非常普及了,其中,無線區域網路更節省了傳統有線網路所需要的硬體資源,更增加了移動的便利性,無異是在現有的思維中,提供了一種更快速方便的選擇。本篇論文便是建立在競爭無線區域網路資源的基礎上,針對現今的技術做進一步的分析與研究。本論文的第一個部分會提出一個新的802.11b DCF 的分析方法,藉由此分析法可以獲得在飽和時系統平均的吞吐量,而第二個部分則會提出一個建立在802.11b分散式協調功能(distributed coordination function,DCF)的機制上的改善方法,使得當通道較為壅塞時可以有效的減少碰撞發生的機會進而增進吞吐量,最後一個部分則會針對在802.11e加強型分散式通道存取(Enhanced Distribution Channel Access,EDCA)中的封包錯誤機率,研究不同等級間的吞吐量的改變與差異,並試圖改善錯誤機率產生的影響。

    Both IEEE 802.11 and IEEE 802.11e define a mechanism apiece for stations to contend for channel resources without arrangement in advance. In this thesis we focus on the contention-based mechanisms and present three studies on them. In the first part, a novel model is proposed by considering the transmission probability of a specific station will increase or decrease after each time slot, and, based on this model, the throughput of 802.11 DCF is analyzed. Secondly, the 802.11 DCF mechanism is modified to improve its throughput in a hybrid environment by adding an extra part in front of every data packet using the basic access mechanism to protect it from collision with RTS packet(s). Finally, the contention window is adaptively adjusted in 802.11e EDCA, in order that the portion of QoS received by each service class under channel errors will remain the same as that under error-free channels.

    第一章 緒論 1 1.1 研究動機與背景 1 1.2 研究目的 2 1.3 論文架構 2 第二章 相關知識及作法介紹 3 2.1 802.11b DCF運作原理 3 2.2 802.11e EDCA運作原理 6 2.3 相關研究與文獻回顧 7 第三章 論文作法介紹 15 3.1 利用上升機率分析吞吐量 15 3.2 改善吞吐量之作法 25 3.2.1 改善吞吐量作法之數學分析 27 3.3 修正錯誤機率對吞吐量產生的影響 29 第四章 模擬結果 36 4.1 改善吞吐量作法之模擬結果 36 4.1.1 模擬情境與參數設定 36 4.1.2吞吐量分析結果 36 4.2 利用上升機率分析吞吐量之模擬結果 39 4.2.1 模擬情境與參數設定 39 4.2.2 結果比較 39 第五章 結論 40

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