參考文獻 |
[1] A. Maio, F. Gini, and L. Patton, Waveform Design and Diversity for Advanced Radar Systems, 1st ed., IET Radar and Sonar Navigation, 2011.
[2] F. Folster, H. Rohling, and H. Lubbert, “An automotive radar systems and network based on 77GHz FMCW sensors”, in Proc. of IEEE Int. Radar Conf., 2005, pp. 871–876.
[3] H. Rohling and E. Lissel, “77 GHz Radar Sensor for Car Application,” Proceedings of the International Radar Conference, pp.373-379, May. 1995.
[4] D.D. Li, S.C. Luo, C. Pero, X. Wu, and R.M. Knox, “Millimeter-wave FMCW/monopulse radar front-end for automotive applications,” IEEE MTT-S International Microwave Symposium Digest., pp.277-280, June. 1999.
[5] A. G. Stove, “Linear FMCW radar techniques,” IEE Proc. F, vol. 139, no. 5, pp. 343-350, Oct. 1992.
[6] H. Rohling, “Radar CFAR thresholding in clutter and multiple target situations,” IEEE Trans. Aerosp. Electron. Syst., vol. AES–19, no. 4, pp. 608–621, 1983.
[7] Yusuke Kitsukawa, Masashi Mitsumoto, Hiroyuki Mizutani, Noriyuki Fukui and Chiharu Miyazaki Mitsubishi Electric Corporation, “An Interference Suppression Method by Transmission Chirp Waveform with Random Repetition Interval in Fast-Chirp FMCW Radar”, Oct 2019.
[8] Dipl.-Ing. (FH) Christian Wolff, Frequency Modulated Continuous Wave Radar,2018.
[9] Mostafa Alizadeh, FMCW Radar System, Jul , 2019.
[10] Patrick Flandrin “Time-frequency and chirps”, Ecole Normale Sup′erieure de Lyon, Laboratoire de Physique (Umr 5672 Cnrs),46 all′ee d′Italie, 69364 Lyon Cedex 07, France.
[11] Ivo Bizon Franco de Almeida, Marwa Chafii , Ahmad Nimr and Gerhard Fettweis, “Alternative Chirp Spread Spectrum Techniques for LPWANs”,Jun.2021.
[12] Ana Belen Martinez, Atul Kumar, Marwa Chafii, Gerhard Fettweis, “A Chirp-Based Frequency Synchronization Approach for Flat Fading Channels”,Apr.2021.
[13] G. M Hatem , J. W Abdul Sadah , T. R. Saeedc G. M Hatema , J. W Abdul Sadahb , T. R. Saeed, “Comparative Study of Various CFAR Algorithms for NonHomogenous Environments”, IOP Conf. Ser.: Mater. Sci. Eng. 433 012080, 2018.
[14] Saeed, T.; Hatem, G.; Abdul Sadah, J.; Ziboon, H. “Design and Implementation of a New CFAR Based on Weighted and Statistical Algorithms”. Preprints 2020, 2020030397 (doi: 10.20944/preprints202003.0397.v1).
[15] P. P. Gandhi and S. A. Kassam, "Analysis of CFAR processors in nonhomogeneous background," in IEEE Transactions on Aerospace and Electronic Systems, vol. 24, no. 4, pp. 427-445, July. 1988, doi: 10.1109/7.7185.
[16] Rajan Srinivasan, “Importance Sampling Applications in Communications and Detection”, Springer-Verlag Berlin Heidelberg 2002.
[17] M. A. Richards, J. A. Scheer, and W. A. Holm, “Principles of Modern Radar”, 1st ed. SciTech Publishing, 2010.
[18] M. A. Richards, “Fundamentals of Radar Signal Processing”, 2nd ed.McGraw-Hill, 2014.
[19] A. Jalil, H. Yousaf and M. I. Baig, "Analysis of CFAR techniques," 2016 13th International Bhurban Conference on Applied Sciences and Technology (IBCAST), Islamabad, 2016, pp. 654-659.
[20] Zhen Jia, “Multi-target CFAR Detection of a Digital Phased Array Radar System”, 2019 J. Phys.: Conf. Ser. 1314 012011.
[21] Jen J, 2011 A study of CFAR Implementation Cost and Performance Tradeoffs in Heterogeneous Environments, Thesis, California State Polytechnic University, Pomona.
[22] Vincent Y Li F and Miller K 2009 Target Detection in Radar: Current Status and Future Possibilities the Journal of Navigation 50 pp 303-313.
[23] Moder Safir Shabit et al 2012 CFAR Detectors Employed by Radar Sensor Systems 12th International Conference on Control, Automation and Systems.
[24] Dejan Ivkovic, Milenko Andrić, B.M. Zrnic “Detection of Very Close Targets by Fusion CFAR Detectors “January 2016,Scientific Technical Review 66(3):50-57.
[25] Lei Zhao, Wexian Liu, Xin Wu and Jeffrey S Fu, “A Novel Approach for CFAR Processor Design”, 2001 IEEE Radar Conference, pp. 284-288.
[26] César Torres-Huitzil, Rene Cumplido-Parra, Santos López-Estrada, “Design and Implementation of a CFAR Processor for Target Detection”, Computer Science Department, INAOE, Apdo. Postal 51 & 216 Tonantzintla, Puebla, México,2004.
[27] A. Melebari, A. Melebari, W. Alomar, M. Y. A. Gaffar, R. De Wind and J. Cilliers, "The effect of windowing on the performance of the CA-CFAR and OS-CFAR algorithms," 2015 IEEE Radar Conference, Johannesburg, 2015, pp. 249-254.
[28] Hansen, V.G and Sawyers, J 1980 Delectability Loss Due to ′Greatest Of Selection in a CellAveraging CFAR IEEE Transactions on Aerospace and Electronic Systems 16 pp 115-118.
[29] M. Sahal, Z. A. Said, R. Y. Putra, R. E. Abdul Kadir and A. A. Firmansyah, "Comparison of CFAR Methods on Multiple Targets in Sea Clutter Using SPX-Radar-Simulator," 2020 International Seminar on Intelligent Technology and Its Applications (ISITIA), 2020, pp. 260-265, doi: 10.1109/ISITIA49792.2020.9163697.
[30] Herrera, R. H., J. B. Tary, M. van der Baan, and D. W. Eaton, 2015,Body wave separation in the time-frequency domain: IEEE Geoscience and Remote Sensing Letters, 12, 364–368, doi: 10.1109/LGRS.2014.2342033.
[31] Gabor, D., 1946, Theory of communication. Part 1: The analysis of information:
Journal of the Institution of Electrical Engineers — Part III: Radio and Communication Engineering, 93, 429–441, doi: 10.1049/ji-3-2.1946.0074.
[32] I. Daubechies, J. Lu, and H.-T. Wu, “Synchrosqueezed wavelet transforms: An empirical mode decomposition-like tool,” Appl. Comput.Harmon. Anal., vol. 30, no. 2, pp. 243–261, Mar. 2011.
[33] I. Daubechies, Ten Lectures on Wavelets. Philadelphia, PA, USA: SIAM, 1992, ser. CBMS-NSF Regional Conference Series in Applied Mathematics.
[34] S. Mostafa Mousavi and Charles A. Langston, Hybrid Seismic Denoising Using Higher-Order Statistics and Improved Wavelet Block Thresholding. Bulletin of the Seismological Society of America, Vol. 106, No. 4, pp. 1380–1393, August. 2016, doi: 10.1785/0120150345.
[35] S. Mostafa Mousavi and Charles A. Langston, Automatic noise-removal/signal-removal based on general cross-validation thresholding in synchrosqueezed domain and its application on earthquake data, March 2017Geophysics 82(4):1-58,
DOI:10.1190/geo2016-0433.1.
[36] DeCarlo, L. T. (1997). On the meaning and use of kurtosis, Psychol. Meth. 2,
292–307.
[37] Tsolis, G., and T. Xenos (2011). Signal denoising using empirical mode
decomposition and higher order statistics, Int. J. Signal Process. Image Process. Pattern Recogn. 4, 91–106.
[38] G. Thakur, E. Brevdo, N. S. Fuckar, and H.-T. Wu, “The synchrosqueezing algorithm for time-varying spectral analysis: Robustness properties and new paleoclimate applications,” Signal Process., vol. 93, no. 5, pp. 1079–1094, May. 2013.
[39] D. L. Donoho, "De-noising by soft-thresholding," in IEEE Transactions on Information Theory, vol. 41, no. 3, pp. 613-627, May 1995, doi: 10.1109/18.382009.
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