研究生: |
陳冠彰 |
---|---|
論文名稱: |
網路感測室內定位系統之環境影響研究 A Study on the Dynamics of Indoor Positioning System Using Sensor Networks |
指導教授: | 周明 |
學位類別: |
碩士 Master |
系所名稱: |
機電工程學系 Department of Mechatronic Engineering |
論文出版年: | 2010 |
畢業學年度: | 98 |
語文別: | 中文 |
論文頁數: | 72 |
中文關鍵詞: | 無線感測網路 、ZigBee 、室內定位系統 、環境因子 |
英文關鍵詞: | Wireless Sensor Networks, ZigBee, indoor positioning system, environment factors |
論文種類: | 學術論文 |
相關次數: | 點閱:131 下載:0 |
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相較於適用在戶外的全球定位系統,室內定位系統總是發展的不夠成熟,面臨許多突發狀況的干擾與環境的變化,使得室內定位系統要能夠去適應每種環境,且精確度要能夠在接受的範圍內變的不容易。
本論文透過部署無線感測網路在環境中,利用ZigBee低耗能與網路拓樸的特性為系統基礎。先假定真實生活中可能遭遇的環境去量測,根據電器用品的數量劃分三個等級,經由分析訊號變化與環境的關係,初步找出環境中的最佳參數;再透過材料性質對訊號衰退的影響程度,訂定系統在不同環境中適應的能力,以增進定位的可靠度。
真實測試各種的情境之後,不論是單一空間依據干擾數劃分的實驗,或是兩個空間有無轉角的實驗,此系統均能夠克服多變環境的影響,達到誤差值約1.5m,甚至達到1.1m,提供較可靠的定位精確度。並建立觀測介面與資料庫,紀錄每一個時間移動點的位置以供參考,此系統不僅本身能夠依環境特性自動調整參數,當環境面臨極為重大的變化時,可以透過介面的手動操作去發送訊號,使此系統仍然具有可靠度。
Comparing with commonly using Global Positioning System (GPS) in outdoor, Indoor Positioning System (IPS) always develops slowly. IPS meets many resistances and is interfered by variety environments. These factors make IPS is difficult to suitable in different cases; the accuracy of location is also a challenge.
This thesis discusses the principle of using ZigBee that has features such as low-energy requirement, protocol network and wireless sensor network. First, assuming different environments that can be face in real life, according to the amount of the electric equipments to define three-level. Analyzing the relation between the signals and different environments to find the best parameters for each conditions. Then, seeking the relation is about the signals in decay from the property of different materials. Finally, defining the ability of the system in different environments raises the accuracy of location.
After many experiments in different environments including interferences or corners, the system could be reliable. The error would be below 1.5 meters, even 1.1 meters. According to recording position and time, the database could be used as reference. The system not only can automatic adjusting but also lets users send signals back to the system. Above all make the system strong and dependable in this research field.
[1] H.F. Li, J.T. Zhen, Y. Zhang, and L. Chen, “Design of Medical Wireless Location Network Based on ZigBee”, IEEE Conference on Wireless, Mobile and Sensor Networks, 2007, pp. 709-712.
[2]江凱偉,空間定位技術發展之現況及未來展望,國土資訊系統通訊,第五十六期,第二章第四節,2005。
[3]安守中,GPS定位原理與應用,全華科技圖書股份有限公司,2005。
[4] D. Niculescu and B. Nath, “VOR base stations for indoor 802.11 positioning”, International Conference on Mobile Computing and Networking, 2004, pp. 58-69.
[5] K. Pahlavan, L. Xinrong, and J.P. Mäkelä, “Indoor geolocation science and technology”, IEEE Communications Magazine, Volume 40, Issue 2, 2002, pp. 112-118.
[6] Garmin網站,http://www.garmin.com.tw。
[7] D. Walsh, S. Capaccio, D. Lowe, P. Daly, P. Shardlow and G. Johnston, “Real Time Differential GPS and GLONASS Vehicle Positioning in Urban Areas”, IEEE Conference on Intelligent Transportation System, 1997, pp. 514-519.
[8] S.C. Yeh, W.H. Hsu, M.Y. Su, C.H. Chen, and K.H. Liu, “A Study on Outdoor Positioning Technology Using GPS and WiFi Networks”, IEEE International Conference on Networking, Sensing and Control, 2009, pp. 597-601.
[9]陳宏宇,RFID系統入門無線射頻辨識系統,文魁資訊股份有限公司,2005。
[10] J. Hightower, and G. Borriello, “SpotON:An Indoor 3D Location Sensing Technology Based on RF Signal Strength”, UW CSE Technical Report, 2000.
[11] L.M. Ni, Y.H. Liu, Y.C. Lau, and A.P. Patil, “LANDMARC: Indoor Location Sensing Using Active RFID”, IEEE International Conference on Pervasive Computing and Communications, 2003, pp. 407-415.
[12] 莊淵登,無線網路技術與應用,學貫行銷股份有限公司,2004。
[13] R. Want, A. Hopper, V. Falcão, and J. Gibbons, “The Active Badge Location System”, ACM Transactions on Information Systems , Volume 10, Issue 1, 1992, pp. 91-102.
[14] 谷腰欣司,感測器,全華科技圖書股份有限公司,2006。
[15] A. Harter, A. Hopper, P. Steggles, A. Ward, and P. Webster, “The anatomy of a context-aware application”, ACM/IEEE International Conference on Mobile Computing and Networking, 1999, pp. 59-68.
[16] B. Brown , I. MacColl, M. Chalmers, A. Galani , C. Randell, and A. Steed, “Lessons from the lighthouse: collaboration in a shared mixed reality system”, SIGCHI Conference on Human Factors in Computing Systems, 2003.
[17] A. Kotanen, M. Hännikäinen, H. Leppäkoski, and T.D. Hämäläinen, “Experiments on Local Positioning with Bluetooth”, International Conference on Computers and Communications, 2003, pp. 297-303.
[18] S. Zhou, and J.K. Pollard, “Position measurement using bluetooth”, IEEE Transactions on Consumer Electronics, Volume 52, Issue 2, 2006, pp. 555-558.
[19] A.K.M. Mahtab Hossain, and W.S. Soh, “A Comprehensive Study of Bluetooth Signal Parameters for Localization”, IEEE 18th International Symposium on Indoor and Mobile Radio Communications, 2007, pp. 1-5.
[20] M. Rodriguez, J.P. Pece, C. and J. Escudero, “In-building location using Bluetooth”, International Workshop on Wireless Ad-hoc Networks, 2005.
[21] T.M. Fern´andez, J. Rodas, C.J. Escudero and D.I. Iglesia, “Bluetooth Sensor Network Positioning System with Dynamic Calibration”, International Symposium on Wireless Communication Systems, 2007, pp. 45-49.
[22] A. Goldsmith, “Wireless Communications”, Cambridge University Press, 2005, pp. 28-46.
[23] E.E.L. Lau, and W.Y. Chung, “Enhanced RSSI-Based Real-Time User Location Tracking System for Indoor and Outdoor Environments”, International Conference on Convergence Information Technology, 2007, pp. 1213-1218.
[24] GEOPROTEK網站,http://www.geoprotek.com。
[25] Y. Fukuda, M. Jayawickrema, and Y. Oie, “Cooperative Resource Management by Access Points and Stations for Fair and Efficient Sharing of Wireless LANs”, EuroNGI Conference on Next Generation Internet Networks, 2007, pp. 64-71.
[26] C.H. Liu and C.C. Fan, “ZigBee – Research into integrated Real – Time Location System”, IEEE Conference on Asia-Pacific Services Computing, Volume 9, Issue 12, 2008, pp. 942-947.
[27] K. Lorincz and M. Welsh, “MoteTrack: a robust, decentralized approach to RF-based location tracking”, International Workshop on Location and Context-Awareness, 2005, pp. 63-58.
[28] K. Yedavalli, B. Krishnamachari, S. Ravula, and B. Srinivasan, “Ecolocation: A Sequence Based Technique for RF Localization in Wireless Sensor Networks”, Fourth International Symposium on Information Processing in Sensor Networks, 2005, pp. 285-292.
[29] M. Dom´ınguez-Dur´an, D. Claros, C. Urdiales, F. Coslado and F. Sandoval, “Dynamic calibration and zero configuration positioning system for WSN”, IEEE Mediterranean Conference on Electrotechnical, 2008, pp. 145-150.
[30]Texas Instruments, “System-on-Chip for 2.4 GHz ZigBee (TM) IEEE 802.15.4 with Location Engine”, CC2431, SWRS034B.
[31]Texas Instruments, “CC2431 DK Development Kit User Manual Rev 1.5”, CC2431, SWRU076D.
[32] K. Aamodt, “CC2431 Location Engine”, Application Note AN042, SWRA095, Texas Instruments.
[33] 溫志宏,無線通道模型概論,中正大學無線進接技術實驗室暨數位通訊實驗室限公司,2004。
[34] 麥葉,機率入門及統計上的應用,1984。
[35] 吳權威,Visual C# 2008入門與應用,網奕資訊科技股份有限公司,2008。
[36]Texas Instruments, “Z-Stack Location Profile”, F8W-2006-0002.
[37] M. Kim, and B. Noble, “Mobile network estimation”, International Conference on Mobile Computing and Networking, 2001, pp. 298-309.
[38] H.Y. Chen, and T.Y. Chou, “Hybrid TDOA/AOA mobile user location with artificial neural networks”, IEEE International Conference on Networking, Sensing and Control, 2008, pp.847-852.
[39] M.Ciurana, S.Cugno, and F.Barcelo-Arroyo, “WLAN indoor positioning based on TOA with two reference points”, WPNC '07. 4th Workshop on Positioning, Navigation and Communication, 2007, pp. 23-28.
[40] H.C. Son, J.G. Lee, and G.I. Jee, “Mobile station location using hybrid GPS and a wireless network”, The 57th IEEE Semiannual Vehicular Technology Conference, Volume 4, 2003, pp. 2716-2720.