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研究生:徐佳笙
研究生(外文):Chia-Sheng Hus
論文名稱:基於無線電波的距離估測於惡劣氣候下的誤差分析與補償方法
論文名稱(外文):Radio-based Distance Estimation in Bad Weather of ErrorAnalysis and Compensation method
指導教授:方士豪方士豪引用關係
指導教授(外文):Shih-Hau Fang
口試委員:錢膺仁曹昱
口試委員(外文):Chien, Ying-RenYu Tsao
口試日期:2014-06-30
學位類別:碩士
校院名稱:元智大學
系所名稱:電機工程學系
學門:工程學門
學類:電資工程學類
論文種類:學術論文
論文出版年:2014
畢業學年度:102
語文別:中文
論文頁數:24
中文關鍵詞:距離估測接收訊號強度雨衰路徑衰減模型
外文關鍵詞:Distance estimatedReceive signal strengthRain attenuationPropagation model
相關次數:
  • 被引用被引用:0
  • 點閱點閱:243
  • 評分評分:
  • 下載下載:0
  • 收藏至我的研究室書目清單書目收藏:0
在惡劣氣候時,針對低頻無線電波進行距離估測誤差的分析和補償。因為過
去文獻大部分針對高頻討論,且認為低頻影響微乎其微。因此,在這篇論文中主
要研究的對象為低頻段全球行動通訊系統的頻段。我們利用量測
的惡劣氣候的訊號強度和氣候資料進行一系列的觀測和分析。接著我們找到一組
適應元智惡劣氣候的環境參數進行補償。最後,我們得到的距離估測結果近似晴
天距離。
In bad weather time, we estimated and analyze radio-based distance error estimated. In past literature, they
often discussed for high frequency band and considered minimal impact on low-frequency. Therefore, the object
of this paper is GSM (Global system for Mobile communication) radio band. We used received signal strength (RSS)
and weather data to observe and analyze. Then, we found a appropriate set of environmental parameters for bad
weather in YZU. Final, We obtain similar result of distance estimated in sunny day.
Chapt 1.緒論......................................2

1.1動機...................................2

1.2背景和相關工作...........................2

2.惡劣氣候下距離估測使用的模型...................4

2.1雨衰模型................................4

2.2路徑衰減模型.............................6

3.距離估測器..................................9

3.1基於接收訊號強度並考慮降雨量的距離估測器.......9

3.2估測器邊界值的效能和多個接收訊號強度的情境.....11

4.真實環境實驗.................................14

4.1實驗設置.................................14

4.2實驗資料分析..............................14

4.2實驗結果.................................18

5.結論.......................................20
[1] H. Chang, J. Choi, and M. Kim, "Experimental research of probabilistic lo-calization of service robots using range image data and indoor gps system," in IEEE Conference on Emerging Technologies and Factory Automation, 2006.

[2] K. -H. Hwang, D. -E. Kim, D. -H. Lee, and T. -Y. Kuc, "A simple ultrasonic GPS system for indoor mobile robot system using kalman filtering," in International Joint Conference on SICE-ICASE, pp. 2915-2918, 2006.

[3] A. -K. Anwar, G. Ioannis, and F. -N. Pavlidou, "Evaluation of indoor location based on combination of AGPS/ HSGPS," in International Symposium on Wireless Pervasive Computing (ISWPC), pp. 383-387, 2008.

[4] A. C. N. B. Priyantha and H. Balakrishnan, "The cricket location-support system," in ACM Mobilorr

[5] R. Ouyang, A. -S. Wong, and C. -T. Lea, "Received signal strength -based wire-less localization via semidefinite programming: Noncooperative and cooperative schemes," IEEE Transactions on Vehicular Technology, vol. 59, no. 3, pp. 1307-1318, 2010.

[6] A. Weiss, "On the accuracy of a cellular location system based on RSS measurements," IEEE Transactions on Vehicular Technology, vol. 52, no. 6, pp. 1508-1518, 2003.

[7] A. F. Molisch, "Wireless communications 2nd edition," pp. 1-884, 2010.

[8] Y. Okumara, E. Ohmori, T. Kawano, and K. Fukuda, "Field strength variability in VHF and UHF land mobile service," pp. 825-873, 1968.

[9] H. Laitinen, J. Lahteenmaki, and T. Nordstrom, "Database correlation method for gsm location," in IEEE Vehicular Technology Conference, vol. 4, pp. 2504-2508 vol.4, 2001.

[10] M. Chen, T. Sohn, D. Chmelev, D. Haehnel, J. Hightower, J. Hughes,A. LaMarca, F. Potter, I. Smith, and A. Varshavsky, "Practical metropolitan-scale positioning for gsm phones," in UbiComp 2006: Ubiquitous Computing
(P. Dourish and A. Friday, eds.), vol. 4206 of Lecture Notes in Computer Sci-ence, pp. 225-242, Springer Berlin Heidelberg, 2006.

[11] B. Denby, Y. Oussar, I. Ahriz, and G. Dreyfus, "High-performance indoor localization with full -band gsm fingerprints," in IEEE International Conference on Communications Workshops, pp. 1-5, 2009.

[12] J. Y. Sun, L. Zhao, and A. Anpalagan, "Soft handoff prioritizing algorithm for downlink call admission control of next -generation cellular cdma networks," in Personal, Indoor and Mobile Radio Communications, 2005. PIMRC 2005.
IEEE 16th International Symposium on, vol. 3, pp. 1764-1768 Vol. 3, 2005.

[13] D. Niculescu and B. Nath, "Ad hoc positioning system (APS) using AOA,"in IEEE Conference on Computer Communications (INFOCOM), vol. 3, pp. 1734-1743 vol.3, 2003.

[14] C. Botteron, A. Host -Madsen, and M. Fattouche "Effects of system and environment parameters on the performance of network-based mobile station posi-tion estimators," IEEE Transcietions on Vehicular Technology, vol. 53, no. 1,
pp. 163-180, 2004.

[15] J. Xiao, L. Ren, and J. Tan, "Research of tdoa based self -localization approachin wireless sensor network," in IEEE/RSJ International Conference on Intelligent Robots and Systems, pp. 2035-2040, 2006.

[16] A. Suriza, I. Rafiqul, A. Wajdi, and A. Naji, "Effects of rain intensity variation on rain attenuation prediction for free space optics (FSO) links," in International Conference on Computer and Communication Engineering(ICCCE),
pp. 680-685, 2012.

[17] M. 0. Odedina and T. J. 0. Afullo, "Rain attenuation prediction along ter-restrial paths in south africa using existing attenuation models," in Proc. Int.Symp. AFRICON, pp. 1-7, Sept. 2007.

[18] L. Kumar, Y. Lee, and J. Ong, "Slant -path rain attenuation at different elevation angles for tropical region," in International Conference on Information,
Communications and Signal Processing (ICICS), pp. 1-4, 2009.

[19] A. Hirata, R. Yamaguchi, H. Takahashi, T. Kosugi, K. Murata, N. Kukutsu, and Y. Kado, "Effect of rain attenuation for a 10-Gb/s 120-Ghz-band millimeter-wave wireless link," IEEE Transactions on Microwave Theory and Techniques,
vol. 57, no. 12, pp. 3099-3105, 2009.

[20] C. -Y. Chu and K. Chen, "Effects of rain fading on the efficiency of the Ka-band LMDS system in the taiwan area," IEEE Transactions on Vehicular Technology, vol. 54, no. 1, pp. 9-19, 2005.

[21] R. Crane, "Propagation phenomena affecting satellite communication systems operating in the centimeter and millimeter wavelength bands," Proceedings of the IEEE, vol. 59, no. 2, pp. 173-188, 1971.

[22] M. Tamrakar, K. Banclyopadhyay, and A. De, "Comparison of rain attenuation prediction models with Ku -band beacon measurement for satellite communication system," in International Conference on Signal Processing and Communi-
cations (SPCOM), pp. 1-5, 2010.

[23] J. Goldhirsh, "A review on the application of nonattenuating frequency radars for estimating rain attenuation and space-diversity performance," IEEE Trans-
actions on Geoscience Electronics, vol. 17, no. 4, pp. 218-239, 1979.

[24] J. Nemarich, R. Wellman, and J. Lacombe, "Backscatter and attenuation byfalling snow and rain at 96, 140, and 225 ghz," IEEE Transactions on Geo-science and Remote Sensing, vol. 26, no. 3, pp. 319-329, 1988.

[25] P. Watson, "Survey of measurements of attenuation by rain and other hy-drometeors," Institution of Electrical Engineers Proceedings, vol. 123, no. 9, pp. 863-871, 1976.

[26] B. Mathews, "Effect of rain attenuation on range weighting in weather radar," IEEE Transactions on Aerospace and Electronic Systems, vol. 46, no. 2, pp. 952-960, 2010.

[27] K. P. S. Sudarshana and A. T. L. K. Samarasinghe, "Rain rate and rain attenuation estimation for Ku band satellite communications over Sri Lanka," in IEEE International Conference on Industrial and Information Systems (ICHS),
pp. 1-6, 2011.

[28] L. Emiliani, J. Agudelo, E. Gutierrez, J. Restrepo, and C. Fradique-Mendez,"Development of rain -attenuation and rain-rate maps for satellite system design in the Ku and Ka bands in Colombia," Antennas and Propagation Magazine,
vol. 46, no. 6, pp. 54-68, 2004.

[29] S. Mazuelas, A. Bahillo, R. Lorenzo, P. Fernandez, F. Lago, E. Garcia, J. Bias, and E. Abril, "Robust indoor positioning provided by real-time rssi values in
unmodified wlan networks," IEEE Journal of Selected Topics in Signal Processing, vol. 3, no. 5, pp. 821-831,2009.

[30] R. Olsen, D. Rogers, and D. B. Hodge, "The aRb relation in the calculation of rain attenuation," IEEE Transactions on Antennas and Propagation, vol. 26,no. 2, pp. 318-329, 197 8.
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