Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/4867
DC FieldValueLanguage
dc.contributor顧孟愷zh_TW
dc.contributor溫志煜zh_TW
dc.contributor.advisor廖俊睿zh_TW
dc.contributor.author張詠盛zh_TW
dc.contributor.authorChang, Yung-Shengen_US
dc.contributor.other中興大學zh_TW
dc.date2010zh_TW
dc.date.accessioned2014-06-06T06:30:26Z-
dc.date.available2014-06-06T06:30:26Z-
dc.identifierU0005-2007200916094900zh_TW
dc.identifier.citation[1] 蔣大偉, “802.11無線網路技術通論第二版,” 歐萊禮, 2006. [2] 柯志亨, “計算機網路實驗:以NS2模擬工具實作,” 學貫行銷, 2007. [3] 賴彥呈, “IEEE 802.11無線網路通道品質預測之漫遊決策,” 國立中興大學, 2006. [4] 盧彥霖, “IEEE 802.11 無線網路以競爭視窗為基準之漫遊決策,” 國立中興大學, 2007. [5] 黃昭憲, “IEEE 802.11 無線網路以工作站判決之漫遊決策,” 國立中興大學, 2008. [6] 梁世聰, “支援IEEE 802.11基礎架構式無線區域網路模擬器之設計與建置,” 台北市立師範學院, 2004. [7] Larry L. Peterson, Bruce S. Davie, “Computer Networks: A Systems Approach,” Morgan Kaufmann Publishers, 2003. [8] Mattbew S. Gast ,“ 802.11 Wireless Networks,” O’Reilly , 2006. [9] Fred Halsall ,“ Data Communications, Computer Networks and Open Systems,” Addison-Wesley Publishing Company 4th Ed,1996. [10] Kevin Fall and Kannan Varadhan, “The ns Manual”, 2006. [11] “IEEE 802.11 WG, Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specification,” Standard, IEEE, 1999. [12] G. Bianchi, “Performance Analysis of the IEEE 802.11 Distributed Coordination Function,” IEEE Journal on Selected Areas in Communications, vol. 18, pp.535-547, 2000. [13] Yuh-Shyan Chen, Ming-Chin Chuang, and Chung-Kai Chen, “DeuceScan: Deuce-Based Fast Handoff Schemein IEEE 802.11 Wireless Networks,” IEEE Transactions on Vehicular Technology, vol. 57, pp.1126-1141, 2008. [14] Haitao Wu, Kun Tan, Yongguang Zhang, “Proactive Scan: Fast Handoff with Smart Triggers for 802.11 Wireless LAN,” 26th IEEE International Conference on Computer Communications, pp.749-757, 2007. [15] Ishwar Ramani, Stefan Savage , “SyncScan:Practical Fast Handoff for 802.11 Infrastructure Networks,” Annual Joint Conference of the IEEE Computer and Communications Societies, vol.1, pp.675-684, 2005. [16] “Tutorial for the Network Simulator ns”, http://www.isi.edu/nsnam/ns/tutorial/. [17] “AWK Tutorial Guide, version 2.2”, http://phi.sinica.edu.tw/aspac/reports/94/94011/. [18] “The ns Manual”, http://www.isi.edu/nsnam/ns/doc/ns_doc.pdf. [19] “NS by Example”, http://nile.wpi.edu/NS/.zh_TW
dc.identifier.urihttp://hdl.handle.net/11455/4867-
dc.description.abstractIEEE 802.11 標準的制定降低了無線網路裝置的製造成本,使得無線網路能提供有效率的服務。無線網路透過網路擷取點在空間上的建置而擴充為涵蓋範圍廣闊的網路,當移動式的工作站在網路中往返移動時,可以藉由這個擴充網路從一個擷取點漫遊至下一個擷取點以完成無間縫漫遊。整個漫遊所造成的時間延遲可以區分為:掃描延遲、身份認證延遲、重新聯結延遲,漫遊延遲中以掃描延遲佔據最大的時間比例,而漫遊延遲愈長,服務中斷的時間也愈長。 在本論文我們提出一個減少IEEE 802.11無線網路之漫遊所造成服務中斷的機制稱為隨機掃描(Random Scan),此機制將標記間隔(Beacon Interval)切割成數個區段(Section),在每個標記間隔中,只對一個區段進行掃描,剩下的時間可繼續正常的傳輸,以降低服務被中斷的時間。我們隨機產生通道順序(Channel Sequence)與區段順序(Section Sequence)以掃描通道。根據通道順序與區段順序的排程,工作站切換至目標通道搜尋網路擷取點。最後,我們經由ns-2的模擬結果,證明了隨機掃描是一個降低封包延遲、封包遺失率並改善傳輸速率的機制。zh_TW
dc.description.abstractThe IEEE 802.11 standard has enabled low-cost and effective wireless local area network (WLAN) services. Due to its limited communication range, to cover a large geographical area, we need to deploy multiple access points (APs) and allow mobile stations to seamlessly roam from one AP to another. The delay caused by roaming can be divided into three parts: channel scan, authentication, and re-association. In these three parts, the channel scan time is the longest. In this thesis, we present a new channel scan method called “random scan” to reduce the delay. The scheme divides the beacon interval into several sections. In each beacon interval, only one section will be scanned and it will take multiple beacon intervals to scan all the section to cover the entire beacon interval. The section sequence is randomly generated. The advantage is that normal communication can continue when the station is not scanning for AP. In ns-2 simulation, we find that random scan can reduce both packet delay and packet loss rate and improve throughput.en_US
dc.description.tableofcontents誌謝 i 摘要 ii Abstract iii 目次 iv 表目次 vi 圖目次 vii 第一章 緒論 1 1.1 簡介 1 1.2 研究動機與目的 1 1.3 論文架構 2 第二章 802.11無線區域網路的基本架構 3 2.1 無線區域網路簡介 3 2.2 無線網路基本架構 5 2.3 無線網路基本元件 6 2.4 無線區域網路系統服務 7 2.4.1 分散式系統服務 8 2.4.2 無線區域網路工作站服務 9 2.5 IEEE 802.11 MAC協定 10 2.5.1 集中式協調機制 11 2.5.2 分散式協調機制 12 第三章 802.11無線區域網路的漫遊程序 15 3.1 漫遊程序簡介 15 3.2 通道掃描機制 17 3.2.1 被動式掃描的機制 17 3.2.2 主動式掃描的機制 18 3.2.3 同步化掃描的機制 19 3.3 通道掃描機制的比較與討論 20 第四章 無線網路漫遊之隨機掃描 22 4.1 隨機掃描的原理 22 4.2 隨機掃描的實例 24 4.3 隨機掃描的流程圖 25 4.4 修正後的隨機掃描 26 4.5 提前執行的隨機掃描 27 第五章 隨機掃描之模擬 29 5.1 Network Simulator ns-2介紹 29 5.2 模擬環境之設定 30 5.3 模擬一:隨機掃描之模擬 31 5.4 模擬二:修正後的隨機掃描之模擬 36 5.5 模擬三:區段掃描數目的比較之模擬 39 5.6 模擬四:提前執行的隨機掃描之模擬 44 第六章 結論與未來展望 50 參考文獻 51zh_TW
dc.language.isoen_USzh_TW
dc.publisher通訊工程研究所zh_TW
dc.relation.urihttp://www.airitilibrary.com/Publication/alDetailedMesh1?DocID=U0005-2007200916094900en_US
dc.subjectWireless local area networks (WLANs)en_US
dc.subject無線區域網路zh_TW
dc.subjectRoamingen_US
dc.subjectRandom Scanen_US
dc.subject漫遊zh_TW
dc.subject隨機掃描zh_TW
dc.titleIEEE 802.11 無線網路漫遊之隨機掃描zh_TW
dc.titleRandom Scan for IEEE 802.11 Wireless LAN Roamingen_US
dc.typeThesis and Dissertationzh_TW
item.grantfulltextnone-
item.openairetypeThesis and Dissertation-
item.languageiso639-1en_US-
item.fulltextno fulltext-
item.cerifentitytypePublications-
item.openairecristypehttp://purl.org/coar/resource_type/c_18cf-
Appears in Collections:通訊工程研究所
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