全球定位系統軟體接收機追蹤迴路演算法設計

Ping-Tao Ho; 何秉道

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/25579

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	張帆人(Fan-Ren Chang)
dc.contributor.author	Ping-Tao Ho	en
dc.contributor.author	何秉道	zh_TW
dc.date.accessioned	2021-06-08T06:19:39Z	-
dc.date.copyright	2006-10-25
dc.date.issued	2006
dc.date.submitted	2006-10-17
dc.identifier.citation	[1] James Bao-Yen Tsui, “Fundamentals of Global Positioning System Receivers: A Software Approach, Second Edition”, John Wiley & Sons, Canada, 2000. [2] E. D. Kaplan, “Understanding GPS: Principles and Applications”, Artech House Publisher, Boston, 1996. [3] Peter Rinder, Nicolaj Bertelsen, “Design of a Single Frequency GPS Software Receiver”, Aalborg University, Master Thesis, 2004. [4] Kent Krumvieda et al., “A Complete IF software GPS Receiver: A Tutorial About the Details”, Data Fusion Corporation’s. [5] B. M. Ledvina et al., “Bit-Wise Parallel Algorithms for Efficient Software Correlation Applied to a GPS Software Receiver”, IEEE Transactions on Wireless Communications, Vol.3, NO.5, 2004. [6] “Fixed Point Math Library: Module User’s Guide”, Texas Instruments Inc., May, 2000. [7] Philp W. Ward ,”Performance Comparisons Between FLL, PLL and a Novel FLL-Assisted-PLL Carrier Tracking Loop Under RF Interference Conditions”, Navward GPS Inc., 1998. [8] Stephen A. Dyer and Justin S. Dyer, “The Bilinear Transformation”, IEEE Instrumentation & Measurement Magazine, 2000. [9] Parkingson B. W. and James J. Spilker Jr., “Global Positioning System: Theory and Applications Vol.1”, American Institute of Aeronautics and Astronautics Inc., Washington DC 1996. [10] “GPS Builder Designer’s Guide”, GEC Plessey Semiconductors, GPS Group, Wiltshire, United Kingdom, Nov, 1994. [11] Akos, Dennis, “A Software Radio Approach to Global Navigation Satellite System Receiver Design”, Ph. D. dissertation, Ohio University, August, 1997. [12] Best, Ronald E., “Phase Locked Loops: Design, Simulation and Application”, 4th edition, Mc-Graw Hill, 1997. [13] A. V. Oppenheim and R. W. Schafer, “Digital Signal Processing”, Englewood Cliffs, NJ: Prentice-Hall, 1975. [14] E. I. Jury, “Theory and Application of the Z-transform Method”, Huntington, NY: Robert E. Krieger Publishing Co., pp. 297-299, 1973. [15] Lindsey W. and Chie C., “A Survey of digital Phase Lock Loops”, Proc IEEE 1981; 69; 410-31. [16] Osborne Holly, “Stability Analysis of an Nth Power Digital Phase Locked Loop -Part I: First Order DPLL”, IEEE Trans. Comm., 1980. [17] E. K. Blum, “Numerical Analysis and Computation: Theory and Practice”, Reading, MA: Addison Wesley, 1972. [18] J. M. Ortega, “Numerical Analysis: A Second Course”, New York Academic, 1972. [19] Osborne Holly, “Stability Analysis of an Nth Power Digital Phase Locked Loop -Part II: Second and Third Order DPLLs”, IEEE Trans. Comm., 1980. [20] B. Kim, “Dual-Loop DPLL Gear-Shifting Algorithm For Fast Synchronization”, IEEE Trans. on Circuits and System, 1997. [21] Bishnu Charan Sakar and Tanmoy Bancrjee, “Speed Enhancement of A Class of Digital Phase Locked Loops by Dynamic Gain Control Technique”, International Journal of Electronics and Communications, March, 2005. [22] P. Misra and P. Enge, “Global Positioning System: Signals, Measurements and Performances”, Ganga-Jamuna Press, Lincoln, 2001. [23] W. L. Mao, “Design of Smart GPS Receivers in Narrowband Interference and Kinematic Environments”, Ph. D. dissertation, Dep. EE., Univ. N.T.U. Taiwan, 2003. [24] A.B. Chen, “Design and Verification of Algorithms on Acquisition of Weal GPS Signals”, Master Dissertation, Dep. EE., Univ. N.T.U. Taiwan, 2005. [25] I. S. Gradshteyn and I. M. Ryzhik, “Table of Integrals, Series and Products”, Corrected and Enhanced Edition, pp.218, 1980
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/25579	-
dc.description.abstract	全球定位系統結合分碼多工擷取的技術與三角定位法來判斷接收機的精確位置。其接收機的解調變功能，大多均能夠依賴軟體來完成。本論文概述GPS軟體接收機的主要架構，軟體接收機可以使得系統架構更具有彈性及變通性，因為它只更動軟體程式碼的部份，相對於硬體實現要容易得多。本研究的目的在於設計及分析追蹤演算法的部份。首先提出來的是軟體化的相關函數訊號處理，藉著特別的乘法與加法的運算處理，可加快訊號處理的速度以降低程式的執行時間。另外，在載波追蹤迴路裡，研究成果包括：迴路鑑別器所需的反正切函數的近似法以及輔助追蹤迴路用來追蹤較大幅度的都卜勒頻率。除此之外，鎖相位迴路藉著動態變動的增益控制器可得到較好的暫態響應，另外融合並應用換檔演算法，更可使得載波追蹤迴路的鎖定訊號的時間比起傳統鎖相位迴路快了大約26%，最後，利用真實的衛星訊號當作模擬追蹤系統的輸入，以完成驗證工作。	zh_TW
dc.description.abstract	GPS system combines CDMA technology and trilateration method to get the precise positions of the receivers. Most function of a GPS receiver could be implemented in software. This thesis outlines the main topics of a GPS software receiver which makes the system highly flexible when different algorithms should be tested. The main intention here is in design and analysis of the tracking algorithms in GPS software receiver. In the beginning, a software parallel correlation is presented to enhance the speed of signal processing which can reduce the execution time. Also, efforts on the carrier tracking loops are derived including a new ATAN approximation of the carrier loop discriminator and some algorithms applied in the carrier tracking loop to track the larger Doppler frequency offset. A loop controller design method for digital phase locked loop (DPLL) is presented. DPLL with dynamic gain control technique is implemented such that a better performance of transient response is acquired. Additionally, Gear-shifting algorithm is also applied to make the speed of the carrier tracking much faster in about 26% in comparison with the conventional one. Finally, the thorough system simulations are performed so as to accomplish the job of verification.	en
dc.description.provenance	Made available in DSpace on 2021-06-08T06:19:39Z (GMT). No. of bitstreams: 1 ntu-95-R93921074-1.pdf: 997946 bytes, checksum: 24e908079f0e138ef14a67c7592bb8cd (MD5) Previous issue date: 2006	en
dc.description.tableofcontents	Chapter 1 Introducation 1 1.1 Motivation 1 1.2 Scope in System Architecture of Research 2 1.3 Thesis Organization 3 Chapter 2 GPS Receiver Characterization 4 2.1 GPS Signal Structure 4 2.2 GPS Receiver Architecture 6 2.3 I-Q Demodulation 9 2.4 Coarse Acquisition Code Generation 11 2.5 Bit-Wise Alogorithm for Software Correlation 14 2.6 8-Bit Data Parallel processing 19 Chapter 3 Software Receiver Tracking Algorithm 23 3.1 Carrier Tracking Loop 24 3.1.1 Costas Phase Locked Loop 25 3.1.2 ATAN Phase Discriminator 27 3.1.3 Math Model of PLL in S-Domian 31 3.1.4 Math Model of PLL in Z-Domain 33 3.2 Pull-In Process 34 3.2.1 Frequency Locked Loop 35 3.2.2 FLL-Assisted-PLL Carrier Tracking Loop 38 3.3 Code Tracking Loop 40 3.3.1 Delay Locked Loop 40 2.3.2 Carrier-Aided-Code DLL 43 3.4 Lock Detection 45 3.5 Simulation Result 47 Chapter 4 Digital PLL with Dynamic Gain Control Technique53 4.1 Linear Analysis of Conventional DPLL 54 4.2 Nonlinear Analysis of Conventional DPLL 56 4.3 Modified Gain Controlled DPLL 58 4.3.1 First-Order MDPLL 59 4.3.2 Second-Order MDPLL 62 4.4 Gear-Shifting Gain Control Algorithm 64 4.5 Simulation Result with Dynamic Gain Controlled DPLL 67 Chapter 5 Conclusion and Future Work 75 5.1 Concluding Remarks 75 5.2 Future Work 76 5.3 Acknowledgement 77 Appendix 78 Bibliography 79
dc.language.iso	en
dc.subject	Software Receiver	en
dc.subject	PLL	en
dc.subject	Tracking	en
dc.subject	GPS	en
dc.title	全球定位系統軟體接收機追蹤迴路演算法設計	zh_TW
dc.title	Tracking Loop Algorithm Design of GPS Softwarre Receiver	en
dc.type	Thesis
dc.date.schoolyear	95-1
dc.description.degree	碩士
dc.contributor.coadvisor	毛偉龍(Wei-Lung Mao)
dc.contributor.oralexamcommittee	唐望(Wang Tang),王立昇(Li-Sheng Wang),王和盛(He-Sheng Wang)
dc.subject.keyword	衛星定位,軟體接收機,追蹤迴路,鎖相迴路,	zh_TW
dc.subject.keyword	GPS,Software Receiver,Tracking,PLL,	en
dc.relation.page	81
dc.rights.note	未授權
dc.date.accepted	2006-10-18
dc.contributor.author-college	電機資訊學院	zh_TW
dc.contributor.author-dept	電機工程學研究所	zh_TW
顯示於系所單位：	電機工程學系

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