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References

  • Amar, A., and A. J. Weiss (2008), Localization of narrowband radio emitters based on Doppler frequency shifts, IEEE Trans. Signal Process., 56(11), 55005508.
  • Chan, Y. T., and F. L. Jardine (1990), Target localization and tracking from Doppler-shift measurements, IEEE J. Oceanic Eng., 15, 251257.
  • Chen, H. W., X. Li, J. Yang, W. Zhou, and Z. W. Zhuang (2011), Effects of geometry configurations on ambiguity properties for bistatic MIMO radar, Prog. Electromagn. Res. B, 30, 117133.
  • Chernyak, V. S. (1998), Fundamentals of Multisite Radar Systems: Multistatic Radars and Multiradar Systems, Gordon and Breach Science Publishers, Amsterdam.
  • Godrich, H., A. M. Haimovich, and R. S. Blum (2007), Target localization techniques and tools for MIMO radar, IET Radar Sonar Navig., 3, 314327.
  • Godrich, H., A. M. Haimovich, and R. S. Blum (2008), Cramer Rao Bound on target localization estimation in MIMO radar systems, in Conf. Information Sciences and Systems, pp. 134139, Princeton, NJ, doi:10.1109/CISS.2008.4558509.
  • Gorji, A. A. (2012), Localization, tracking and antenna allocation in Multiple-Input Multiple-Output radars, PhD thesis, Open Access Dissertations and Theses. Paper 7320, McMaster University, Hamilton, Ontario.
  • Hayes, M. H. (1996), Statistical Digital Signal Processing and Modeling, John Wiley and Sons, Inc., New York.
  • He, Q., R. S. Blum, H. Godrich, and A. M. Haimovich (2010), Target velocity estimation and antenna placement for MIMO radar with widely separated antennas, IEEE J. Sel. Top. Sign. Proces., 4(1), 79100.
  • Jin, M., G. Liao, and J. Li (2011), Target localization for distributed Multiple-Input Multiple-Output radar and its performance analysis, IET Radar Sonar Navig., 5(1), 8391.
  • Kalkan, Y. (2013), Cramer-Rao Bounds for target position and velocity estimations for widely separated MIMO radar, Radioengineering, 22(4), 11561161.
  • Kay, S. M. (1993), Fundamentals of Statistical Signal Processing: Estimation Theory, 1st ed., vol. 1, Prentice Hall PTR, N. J.
  • Martin, G. D. (2005), Chirp Z-transform spectral zoom optimization with MATLAB, Sandia Report, SAND 2005–7084.
  • Mixon, D. G. (2006), Doppler-only multistatic radar, M.S. thesis, AFIT/GAM/ENC/06-01, Air Force Institute of Technology, Wright Patterson AFB, Ohio.
  • Nasrabadi, M. A., and M. H. Bastani (2010), A Survey on the Design of Binary Pulse Compression Codes with Low Autocorrelation: Trends on Telecommunications Technologies, In-Tech, India.
  • Rabiner, L., R. Schafer, and C. Rader (1969a), The Chirp z-transform algorithm, IEEE Trans. Audio Electroacoust., 17(2), 8692.
  • Rabiner, L. R., R. W. Schafer, and C. M. Rader (1969b), The Chirp z-transform algorithm and its applications, Bell Syst. Tech. J., 12491292.
  • Richards, M. A. (2005), Fundamentals of Radar Signal Processing, McGraw-Hill, New York.
  • Skolnik, M. I. (1960), Theoretical accuracy of radar measurements, IRE Trans. Aeronaut. Navig. Electron., ANE-7(4), 123129.
  • Skolnik, M. I. (1983), Introduction to Radar Systems, 2nd ed., McGraw-Hill, New York.
  • Soh, W. T. (2007), High Doppler resolution imaging by multistatic continuous wave radars using constructive techniques, M.S. thesis, Naval Post Graduate School, Monterey, Calif.
  • Torrieri, D. J. (1984), Statistical theory of passive location system, IEEE Trans. Aerosp. Electron. Syst., AES-20, 183198.
  • Trees, H. V. (2001), Detection Estimation and Modulation Theory, John Wiley and Sons, Inc., New York.
  • Willis, N. J. (1995), Bistatic Radar, 2nd ed., Technology Service Corp., Silver Spring, Md.
  • Xiao, Y. C., P. Wei, and T. Yuan (2006), Doppler frequency-only and T2/R radar based moving target location, CIE '06. International Conference on Radar, Oct. 16–19.