無線存取點與無線感測網路之整合配置研究

Ying-Chen Chen; 陳胤辰

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/42399

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	張瑞益
dc.contributor.author	Ying-Chen Chen	en
dc.contributor.author	陳胤辰	zh_TW
dc.date.accessioned	2021-06-15T01:13:09Z	-
dc.date.available	2011-08-05
dc.date.copyright	2009-08-05
dc.date.issued	2009
dc.date.submitted	2009-07-29
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[6] M. Boghe and W. Trappe, “An Authentication Framework for Hierarchical Ad Hoc Sensor Networks,” In Proceedings of the 2003 ACM Workshop on Wireless Security, 2003. [7] C. Westphal, “Little Tom Thumb Went Straight Home,” In Proceedings of IEEE INFOCOM 2007, Anchorage, May. 2007. [8] Z. Z. Marco and K. Bhaskar, “Integrating Future Large-scale Wireless Sensor Networks with the Internet,” USC Computer Science Technical Report CS 03-792, 2003. [9] K. Fall, “A Delay-Tolerant Network Architecture for Challenged Internets,” In Proceedings of the SIGCOMM, 2003. [10] S. Lei, W. Jin, X. Hui, J.S Cho and S.Y. Lee, “Connecting Sensor Networks with TCP/IP Network,” In Proceedings of the International Workshop on Sensor Networks (IWSN 2006), Harbin, China, pp. 330-334, Jan. 2006. [11] A. Dunkels, J. Alonso, T. Voigt, H. Ritter and J. Schiller, “Connecting Wireless Sensornets with TCP/IP Networks,” In Proceedings of the Second International Conference on Wired/Wireless Internet Communications (WWIC2004), Frankfurt (Oder), Germany, Feb. 2004. [12] H. Dai and R. Han, “Unifying Micro Sensor Networks with the Internet via Overlay Networking,” In Proceedings of IEEE Emnetsl, Nov. 2004. [13] OpenWRT, http://openwrt.org/ , (Retrieved Jun. 2009) [14] DD-WRT, http://www.dd-wrt.com/ , (Retrieved Jun. 2009) [15] Tomato, http://www.polarcloud.com/tomato , (Retrieved Jun. 2009) [16] Oleg, http://oleg.wl500g.info/ , (Retrieved Jun. 2009) [17] S. Meguerdichian, F. Koushanfar, M. Potkonjak, and M. Srivastava, “Coverage Problems in Wireless Ad-Hoc Sensor Networks,” IEEE Infocom 2001, Vol 3, pp. 1380-1387, Apr. 2001. [18] Y. C. Wang, C. C. Hu and Y. C. Tseng, “Efficient Placement and Dispatch of Sensors in a Wireless Sensor Network,” IEEE Trans. on Mobile Computing, to appear. (SCI) [19] H. Zhang and J. C. Hou, “Maintaining Sensing Coverage and Connectivity in Large Sensor Networks,” Technical Report UIUC, Jun. 2003. [20] X. Wang, G. Xing, Y. Zhang, C. Lu, R. Pless and C. D. Gill, “Integrated Coverage and Connectivity Configuration in Wireless Sensor Networks,” First ACM Conference on Embedded Networked Sensor Systems, Nov. 2003. [21] J. O’Rourke, Computational geometry column 15, Int’l Journal of Computational Geometry and Applications 2 pp. 215–217, 1992. [22] C.F. Huang and Y.C. Tseng, “The coverage problem in a wireless sensor network,” Proceedings of the 2nd ACM international conference on Wireless sensor networks and applications, pp. 115-121, 2003. [23] L. Lazos and R. Poovendran, “Stochastic Coverage in Heterogeneous Sensor Networks,” ACM Transactions on Sensor Networks (TOSN), Vol. 2, No. 3, pp. 325-358, Aug. 2006. [24] 曾煜棋、潘孟鉉、林致宇，”無線區域及個人網路：隨意即感測器網路之技術與應用” 初版，知城圖書，2006. [25] A. Ault, X. Zhong and E. J. Coyle, “K-Nearest-Neighbor Analysis of Received Signal Strength Distance Estimation Across Environments,” Proceedings of the First Workshop on Wireless Network Measurements, Trentino, Italy, Apr. 2005. [26] R. I. Chang and P. Y. Hsiao, 'Unsupervised query-based learning of neural networks using selective-attention and self-regulation,' IEEE Trans. Neural Networks, vol.8, no.2, pp. 205-217, Mar. 1997. [27] R. I. Chang, L. B. Lai, W. D. Su, J. C. Wang and J. S. Kouh, “Intrusion Detection by Backpropagation Neural Networks with Sample-Query and Attribute-Query,” International Journal of Computational Intelligence Research, Vol. 3, No.1, pp. 6-10, 2007. [28] J. Geier, “Improving WLAN Performance with Fragmentation,” Online tutorial at http://www.wifiplanet.com/tutorials/article.php/1468331. (Retrieved Jun. 2009) [29] “Avoiding RF Interference Between WiFi and Zigbee”, Crossbow, http://www.xbow.com, (Retrieved Jun. 2009) [30] H. M. Tsai, O. K. Tonguz, C. Saraydar, T. Talty, M. Ames, and A. Macdonald, “ZigBee-based Intra-car Wireless Sensor Networks: A Case Study,” in Special Issue of Wireless Sensor Networking, IEEE Wireless Communications Magazine, Dec. 2007. [31] F. Vanheel, J. Verhaevert and I. Moerman, “Spectral Interference Study of WiFi on Wireless Sensor Networks”, University of Ghent Faculty of Engineering Sciences PhD Symposium, Ghent, Belgium, pp. 108, Dec. 2007. [32] R. Musaloiu-E and A. Terzis, “Minimising the effect of WiFi interference in 802.15.4 wireless sensor networks,” International Journal of Sensor Networks, Vol. 2, No.1, pp. 43 - 54, 2008. [33] Z. Z. Marco, and K. Bhaskar, 'Integrating Future Large-scale Wireless Sensor Networks with the Internet', USC Computer Science Technical Report CS 03-792, Mar. 2003. [34] Overview of Ethernet by Cisco, http://www.cisco.com/en/US/docs/internetworking/technology/handbook/Ethernet.html , (Retrieved Jun. 2009) [35] HyperWRT, http://sourceforge.net/projects/hyperwrt/ , (Retrieved Jun. 2009)
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/42399	-
dc.description.abstract	在現今的無線感測網路(WSN, Wireless Sensor Networks)應用中，使用感測資料的用戶，都在Internet網路上，因此需要一個網路閘道器銜接WSN與Internet，以進行資料交換。目前銜接WSN與Internet的網路閘道器，皆是使用一般個人電腦，因此存在著成本貴、體積大、耗電量高與設定環境手續繁雜的缺點，使得WSN應用的普及性受到影響。如何改善以上缺失，是一項十分有意義的研究。本論文嘗試修改無線區域網路存取點(WLAN AP, Wireless Local Area Networks Access Point)之韌體，使其能銜接WSN與Internet兩異質性網路。我們稱此能銜接WSN與Internet之新穎WLAN AP為WiZAP (WiFi ZigBee Access Point)。WiZAP所提供的計算與記憶體資源雖不如個人電腦豐沛，但其成本低廉、體積小且耗電量低，並可使用WLAN AP既有的網路功能，大大提升了在WSN應用中使用此網路閘道器的意願。本論文提出WiZAP整合性架構，以模組化與低成本的方式銜接WSN與Internet，提供使用者Internet服務並整合WSN功能。最後藉由調整WiFi之MAC層參數，我們提出避免Zigbee與WiFi共存時所發生的資料碰撞問題的一些觀察。我們將本架構與相關的研究做比較分析，說明其具有高彈性、低成本、建置方便及低耗能的優點。	zh_TW
dc.description.abstract	In nowadays applications of Wireless Sensor Networks (WSN), the client makes use of sensing data in Internet. A network gateway is required to connect WSN to Internet for data exchanging. In conventional studies, they usually apply personal computer as the network gateway. This model has shortcomings in high cost, large size, and high energy consumption. It is a meaningful research issue to make an improvement on these shortcomings. This thesis tries to modify the firmware of a Wireless Local Area Networks Access Point (WLAN AP), and make it as the network gateway of WSN and Internet. We call this WLAN AP as WiZAP (WiFi ZigBee Access Point). Even though the computation ability and memory resource provided by WiZAP is not as sufficient as PC, WiZAP has low cost, small size, and low energy consumption. This thesis introduces the WiZAP architecture that provides modularity and low cost methods to connect WSN with Internet and supply users not only Internet services but also WSN functions. By adjusting the parameter of MAC layer in WiFi, we propose some observations to avoid data collision when Zigbee and WiFi coexist. We make a comparable analysis of research associated with the architecture, and show the advantage such as high flexibility, low cost, convenient to build, and low energy consumption.	en
dc.description.provenance	Made available in DSpace on 2021-06-15T01:13:09Z (GMT). No. of bitstreams: 1 ntu-98-R96525071-1.pdf: 4070707 bytes, checksum: 40c7cc0a04822af7d65785196b34b50e (MD5) Previous issue date: 2009	en
dc.description.tableofcontents	致謝 II 摘要 III ABSTRACT IV 第一章緒論 1 1.1 研究背景 1 1.2 研究動機與目的 3 1.3 論文架構 4 第二章相關研究 5 2.1 整合異質性網路架構 5 2.1.1 Gateway-based approach 5 2.1.2 Overlay-based approach 7 2.2 第三方韌體 8 2.3 IEEE 802.11B與IEEE 802.15.4共存問題 10 2.3.1 頻譜重疊研究 10 2.3.2 碰撞偵測 11 2.3.3 封包碰撞避免 12 第三章提出之系統架構 14 3.1 系統整合之考量 14 3.2 整合式環境開發 15 3.2.1 系統整合架構 15 3.2.2 系統整合模組 16 3.2.3 與現有方法分析比較 19 3.3 系統模組之選用 21 3.3.1 WLAN AP之硬體平台 21 3.3.2 適用的第三方韌體 22 3.3.3 WSN管理與安全解決方案 23 第四章系統方法實做 26 4.1 WIZAP系統實做 26 4.2 SNCI功能實做 28 第五章網路共存之封包碰撞實驗與結果 33 5.1 WIFI與ZIGBEE封包碰撞之實驗方法 33 5.1.1 實驗架構與方法 33 5.1.2 實驗之可調整參數(操縱變因) 36 5.1.3 實驗之保持不變參數(控制變因) 36 5.1.4 實驗之觀察參數(應變變因) 37 5.1.5 實驗設計與資料擷取區間 39 5.1.6 背景雜訊的影響 42 5.2 調整WIFI數據參數對WIFI傳輸的影響 42 5.2.1 調整Beacon Interval的策略 45 5.2.2 調整Channel的策略 45 5.2.3 調整Data Rate的策略 46 5.2.4 調整Fragmentation Threshold的策略 46 5.2.5 調整Power的策略 47 5.2.6 觀察之數據結果 47 5.3 調整WIFI傳輸參數對ZIGBEE傳輸的影響 47 5.3.1 調整Beacon Interval的策略 49 5.3.2 調整Channel的策略 49 5.3.3 調整Data Rate的策略 49 5.3.4 調整Fragmentation Threshold的策略 49 5.3.5 調整Power的策略 50 5.4 更改WIFI參數對WIFI傳輸的影響 50 5.4.1 關閉Zigbee，WiFi參數的變動情形 50 5.4.2 開啟Zigbee，WiFi參數的變動情形 51 5.4.3 Zigbee對WiFi傳輸所造成的影響 52 5.5 更改WIFI參數對ZIGBEE傳輸的影響 53 第六章調整無線存取點參數之策略 54 6.1 以ZIGBEE傳輸為優先考量之參數調整策略 54 6.2 以WIFI傳輸為優先考量之參數調整策略 55 6.3 以網路傳輸平衡為優先考量之參數調整策略 55 第七章結論與未來研究 57 參考文獻 58
dc.language.iso	zh-TW
dc.subject	無線存取點	zh_TW
dc.subject	網際網路	zh_TW
dc.subject	網路閘道器	zh_TW
dc.subject	系統整合	zh_TW
dc.subject	無線感測網路	zh_TW
dc.subject	Internet	en
dc.subject	Wireless sensor networks (WSN)	en
dc.subject	system integration	en
dc.subject	network gateway	en
dc.subject	wireless access point	en
dc.title	無線存取點與無線感測網路之整合配置研究	zh_TW
dc.title	A Study on Integration and Configuration of Wireless Access Point and Wireless Sensor Networks	en
dc.type	Thesis
dc.date.schoolyear	97-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	丁肇隆,黃乾綱,王家輝,林正偉
dc.subject.keyword	無線感測網路,網際網路,無線存取點,網路閘道器,系統整合,	zh_TW
dc.subject.keyword	Wireless sensor networks (WSN),Internet,wireless access point,network gateway,system integration,	en
dc.relation.page	60
dc.rights.note	有償授權
dc.date.accepted	2009-07-29
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	工程科學及海洋工程學研究所	zh_TW
顯示於系所單位：	工程科學及海洋工程學系

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