適用於GPS接收機之時頻域抗干擾演算法設計

Yi-En Chen; 陳以恩

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/21035

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	曹恆偉(Hen-Wai Tsao),錢膺仁(Ying-Ren Chien)
dc.contributor.author	Yi-En Chen	en
dc.contributor.author	陳以恩	zh_TW
dc.date.accessioned	2021-06-08T03:16:51Z	-
dc.date.copyright	2017-02-21
dc.date.issued	2017
dc.date.submitted	2017-01-23
dc.identifier.citation	參考文獻 [1]http://www.thesignaljammer.com/categories/GPS-Jammers/ [2]http://www.jammer-store.com/gps-blockers-jammers.html [3]李冠儀, ” Design of Automatic Gain Control Circuits for GPS Receiver”, 台大電機所碩士論文,2005 [4]黃議徵, “Low-complexity Solution to GPS Narrowband Interference Cancellation”, 台大電信所碩士論文, 2009 [5]James Bao-yen Tsui, ”Fundamentals of Global Positioning System Receivers : A software approach”, Second Edition, WIELY, INTER-SCIENCE,2005 [6]ElliottD.Kaplan,Christopher J. Hegarty, “Understanding GPS Principles and Applications”, 2nd ed., Artech House , 2006 [7]杜俊賢, “A Multipath Mitigation Tracking Architecture Using Adaptive Path Estimator for GPS System”, 台大電機電信電子產業研發碩士專班碩士論文, 2007 [8]G. Dimos, T. Upadhyay and T. Jenkins, 'Low-cost solution to narrowband GPS interference problem,' Aerospace and Electronics Conference, 1995. NAECON 1995., Proceedings of the IEEE 1995 National, Dayton, OH, 1995, pp. 145-153 vol.1. [9]Y. R. Chien, Y. C. Huang, D. N. Yang and H. W. Tsao, 'A Novel Continuous Wave Interference Detectable Adaptive Notch Filter for GPS Receivers,' Global Telecommunications Conference (GLOBECOM 2010), 2010 IEEE, Miami, FL, 2010, pp. 1-6. [10]Y. R. Chien, 'Design of GPS Anti-Jamming Systems Using Adaptive Notch Filters,' in IEEE Systems Journal, vol. 9, no. 2, pp. 451-460, June 2015. [11]P. T. Capozza, B. J. Holland, T. M. Hopkinson, R. L. Landrau, 'A single-chip narrow-band frequency-domain excisor for a Global Positioning System (GPS) receiver', IEEE J. Solid-State Circuits, vol. 35, no. 3, pp. 401-411, Mar. 2000. [12]陳基孝, ”Frequency-Domain Approach for Multiple Narrowband Interference Cancellation in GPS Receivers”, 台大電子所碩士論文,2013 [13]P. Henttu, S. Aromaa, 'Consecutive mean excision algorithm', Proceedings of IEEE International Symposium on Spread Spectrum Techniques and Applications, vol. 2, pp. 450-454, Sept. 2002. [14]Song, H., Zhao, L. and Ding, J. (2008), “Frequency‐domain adaptive filtering of batch dealing used for GPS anti‐jamming”, Lecture Notes in Computer Science, Vol. 5370, pp. 680‐6. [15]Dovis, F., Musumeci, L.: ‘Use of wavelet transforms for interference mitigation’.Proc. Int. Conf. on Localization and GNSS, Tampere, Finland, June 2011,pp.116–121 [16]R. Landry, P. Mouyon and D. Lekaim, 'Interference mitigation in spread spectrum systems by wavelet coefficients thresholding', European Transactions on Telecommunications, vol. 9, pp. 191-202, 1998. [17]M. R. Mosavi, M. Pashaian, M. J. Rezaei and K. Mohammadi, 'Jamming mitigation in global positioning system receivers using wavelet packet coefficients thresholding,' in IET Signal Processing, vol. 9, no. 5, pp. 457-464, 7 2015. [18]E. Pardo, M. A. Rodriguez-Hernandez and J. J. Perez-Solano, 'Narrowband Interference Suppression Using Undecimated Wavelet Packets in Direct- Sequence Spread-Spectrum Receivers,' in IEEE Transactions on Signal Processing, vol. 54, no. 9, pp. 3648-3653, Sept. 2006. [19]L. Zhang, S. Yuan, Y. Chen and J. Yang, 'Narrowband interference suppression in DSSS system based on frequency shift wavelet packet transform,' 2009 9th International Conference on Electronic Measurement & Instruments, Beijing, 2009, pp. 2-333-2-337. [20]M. Trinkle, D. A. Gray, 'GPS interference mitigation: Overview and experimental results', Proceedings of The 5th International Symposium on Satellite Navigation Technology & Applications, pp. 1-14, July 24–27, 2001. [21]F. Wu, L. Yu, Y. Zhao and H. Zhong, 'Performance analysis of typical Kalman filter based GPS tracking loop,' 2014 IEEE International Conference on Control Science and Systems Engineering, Yantai, 2014, pp. 6-12. [22]林易澂, “Design and Analysis of Extended Kalman Filter Based GPS Tracking loops”, 台大電信所碩士論文, 2010. [23]S. Mallat, A Wavelet Tour of Signal Processing: The Sparse Way, Academic Press, 3rd edition,2009. [24]B. Farhang-Boroujeny. Adaptive Filters: Theory and Applications. Wiley, 2013 [25]Donoho, D.L., I.M. Johnstone (1994), 'Ideal spatial adaptation by wavelet shrinkage,' Biometrika, vol 81, pp. 425–455. [26]A. Bruce and H.-Y. Gao, 'Understanding WaveShrink: Variance and bias estimation', Biometrika, vol. 83, no. 4, 1996. [27]Debnath, L., & Shah, F. A. (2015). Wavelet transforms and their applications. New York, NY: Birkhäuser
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/21035	-
dc.description.abstract	隨著導航系統應用的逐漸普及，如車用導航、無人車甚至無人飛機等應用越趨熱門，對於導航系統的準確度和即時性之要求也就愈來愈高。而市售干擾器容易取得，其產生的掃頻訊號對衛星導航系統的定位品質危害甚鉅，因此吾人勢必要有一有效機制將干擾有效的消除。本文目的為提出一可有效消除掃頻干擾的演算法，且其效能優於前人之相關研究，我們使用目前最普及的全球衛星導航系統GPS為驗證本研究成果的平台，在此我們使用時頻域方法消除干擾，提出一種利用minimax門檻值演算法進行小波包去噪，並將搭配後端的可適性濾波器進行干擾消除。我們在不同強度的掃頻干擾下做模擬，並做消除效能的比較。根據模擬結果，我們的方法確能有效的消除掃頻干擾，且效能優於前人的小波包去噪演算法。	zh_TW
dc.description.abstract	As applications of navigation systems become more widespread and popular (exemplified by the development of unmanned vehicles and unmanned aircraft etc.) more precise and reliable positioning and navigation become more and more important nowadays. Since people can easily obtain jammers to generate chirp-type jamming signals, which can cause a severe performance degradation to Global Positioning System(GPS) receivers, we, therefore require an effective scheme to mitigate these jamming signals. We propose an effective way of eliminating chirp-type jamming signals in this thesis, and it outperforms prior work. We use time-frequency domain method to do anti-jamming works. With minimax threshold algorithm, we can derive a threshold and use wavelet packet transform plus adaptive algorithms to prevent degradation of GPS receivers from such jammers. We compare the simulation results of our method with prior work under chirp-type jamming signals of different Jamming-to-Signal ratio(JSR)s. According to the simulation results, our method not only can mitigate chirp-type jamming effectively but also outperforms prior wavelet packet de-noising method.	en
dc.description.provenance	Made available in DSpace on 2021-06-08T03:16:51Z (GMT). No. of bitstreams: 1 ntu-106-R02943019-1.pdf: 1779691 bytes, checksum: f3057a2f52fa85c57bb1a9020b7999a9 (MD5) Previous issue date: 2017	en
dc.description.tableofcontents	誌謝 i 摘要 ii Abstract iii 目錄 iv 圖目錄 vi 表目錄 viii 第一章緒論 1 1.1 研究背景 1 1.2 研究動機 1 1.3 研究範圍 2 1.4 論文組織 2 第二章 GPS接收機架構暨抗干擾技術 3 2.1 GPS訊號組成 3 2.2 GPS訊號與雜訊強度 7 2.3 GPS訊號特性 8 2.4 GPS接收機架構 9 2.4.1 自動增益控制器 10 2.4.2 類比數位轉換器 12 2.4.3 訊號擷取 13 2.4.4 訊號追蹤 17 2.5 GPS抗干擾技術介紹 21 2.5.1 可適性天線訊號處理 22 2.5.2 時域訊號處理 22 2.5.3 頻域訊號處理 23 2.5.4 時頻域訊號處理 24 2.5.5 後置相關訊號處理 24 2.6 抗干擾技術之比較暨其研究方向 25 第三章抗干擾演算法設計 26 3.1 抗干擾程序 26 3.2 Minimax 門檻值演算法 30 3.3 小波包轉換 34 3.4 干擾源模型 38 3.5 抗干擾效果之評斷標準 41 3.5.1 訊號與雜訊功率比 41 3.5.2 訊號擷取偵測率 42 3.5.3 有效訊號與雜訊功率比 43 3.6 干擾訊號對GPS接收機的影響 44 第四章抗干擾性能模擬結果與討論 45 4.1 模擬參數 45 4.2 掃頻干擾消除效能分析與比較 47 4.3 連續波干擾消除效能分析與比較 54 4.4 追蹤結果分析 61 第五章結論與未來展望 63 參考文獻 64 附錄 68
dc.language.iso	zh-TW
dc.subject	干擾消除	zh_TW
dc.subject	小波包去噪	zh_TW
dc.subject	時頻域	zh_TW
dc.subject	衛星導航系統(GPS)	zh_TW
dc.subject	minimax門檻值	zh_TW
dc.subject	minimax threshold	en
dc.subject	anti-jamming	en
dc.subject	wavelet packet	en
dc.subject	time-frequency domain	en
dc.subject	Global Positioning System(GPS)	en
dc.title	適用於GPS接收機之時頻域抗干擾演算法設計	zh_TW
dc.title	Design of Time-Frequency Domain Anti-jamming Algorithm for GPS Receivers	en
dc.type	Thesis
dc.date.schoolyear	105-1
dc.description.degree	碩士
dc.contributor.oralexamcommittee	蔡佩芸(Pei-yun Tsai),張帆人(Fan-Ren Chang)
dc.subject.keyword	干擾消除,小波包去噪,時頻域,衛星導航系統(GPS),minimax門檻值,	zh_TW
dc.subject.keyword	anti-jamming,wavelet packet,time-frequency domain,Global Positioning System(GPS),minimax threshold,	en
dc.relation.page	69
dc.identifier.doi	10.6342/NTU201700195
dc.rights.note	未授權
dc.date.accepted	2017-01-23
dc.contributor.author-college	電機資訊學院	zh_TW
dc.contributor.author-dept	電子工程學研究所	zh_TW
顯示於系所單位：	電子工程學研究所

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