Passive/Active Radar: Bibliography

Passive/Active Radar: Bibliography


Passive/Active Radar: Bibliography














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UIUC Only

Bibliography – Papers from Outside the Project

This is a list of some
relevant papers by both people at UIUC and elsewhere.
This is not a comprehensive bibliography, just a list of
the papers that live in the DARPA drawer (the top drawer in
the right file cabinet in 123 C&SRL). If you are part of the project, feel
free to drop by and borrow papers to make copies, but please return the
originals. If you are elsewhere, you can look these papers up yourself.
[Note: I actually stopped trying to maintain this list a while ago;
there’s a lot more in the drawer than is listed here.]

Bistatic Radar

  • H.D. Griffiths and N.R.W. Long, Television-Based Bistatic Radar,
    IEE Proceedings F, Vol. 133, No. 7, Dec. 1986, pp. 649-657.

  • D. Mensa and G. Heidbreder, Bistatic Synthetic-Aperture Radar
    Imaging of Rotating Objects
    , IEEE Trans. Aerospace and Electronic
    Systems, Vol. 18, No. 4, July 1992, pp. 423-431.

  • M.C. Jackson, The Geometry of Bistatic Radar Systems,
    IEE Proceedings
    F, Vol. 133, No. 7, Dec. 1986, pp. 604-612.

  • J. Detlefsen, Application of Multistatic Radar Principles to
    Short-Range Imaging
    , IEE Proceedings F., Vol. 133, No. 7, Dec. 1986,
    p. 658-663.

Richard Blahut

  • R.E. Blahut, Theory of Remote Surveillance Algorithms,
    Radar & Sonar,
    Part I, edited by R.E. Blahut, W.M. Miller, Jr., and C.H. Wilcox,
    Springer-Verlag: New York, 1991, pp. 1-65.

Yoram Bresler & Coworkers

  • A.H. Delaney and Y. Bresler, Globally Convergent Edge-Preserving
    Regularized Reconstruction: An Application to Limited-Angle
    Tomography
    , IEEE Trans. on Image Processing, Vol. 7, No. 2,
    Feb. 1992, pp. 204-221.

DOD2345

  • Forms and other documentation
    relating to permission to handle export-controlled data.

Weng Chew & Coworkers

  • M. Brandfass, W.C. Chew, and J.-S. Zhao,
    Overheads: Fast Solution of a 2D-Electromagnetic Inverse Problem
    Using the Distorted Born Iterative and Fast Multiple Method

  • W.C. Chew and Y.M. Wang, Reconstruction of
    Two-Dimensional Permittivity
    Distribution Using the Distorted Born Iterative Method
    ,
    IEEE Trans. Medical Imaging, Vol. 9, No. 2, June 1990, pp. 218-225.

  • W.C. Chew and J.H. Lin, A Frequency-Hopping Approach for Microwave
    Imaging of Large Inhomogeneous Bodies
    , IEEE Microwave and Guided
    Wave Letters, Vol. 5, No. 12, Dec. 1995, pp. 439-441.

  • J.M. Song and W.C. Chew, Fast Multiple Method Solution Using
    Parametric Geometry
    , Microwave and Optical Technology Letters,
    Vol. 7, No. 16, Nov. 1994, pp. 760-765.

  • C.C. Lu and W.C. Chew, Fast algorithm for solving hybrid integral
    equations
    , IEE Proceedings-H,
    Vol. 140, No. 6, Dec. 1993, pp. 445-460.

  • J.M. Song and W.C. Chew, Multilevel Fast-Multipole Algorithm for
    Solving Combined Field Integral Equations of Electromagnetic
    Scattering,

    Microwave and Optical Technology Letters, Vol. 10, No. 1, Sept. 1995,
    pp. 14-19.

  • F.-C. Chen and W.C. Chew, Experimental Verification
    of Super Resolution
    in Nonlinear Inverse Scattering
    , Applied Physics Letters, Vol. 72,
    No. 23, 8 June 1998, pp. 3080-3082.

David Colton, Andreas Kirsch, Rainer Kress, Ronald Potthast, Peter Monk,
Etc. (Univ. of Delaware group)

  • D. Colton, K. Giebermann, and P. Monk, A Regularized Sampling
    Method for Solving Three Dimensional Inverse Scattering Problems
    ,
    preprint.

  • D. Colton, J. Coyle, and P. Monk, Recent Developments in Inverse
    Acoustic Scattering Theory
    , preprint.

  • D. Colton and A. Kirsch, A simple method of solving inverse
    scattering problems in the resonance region
    , Inverse Problems, 12,
    1996, pp. 383-393.

  • D. Colton, M. Piana, and R. Potthast, A simple method using
    Morozov’s discrepancy principle for solving inverse scattering
    problems
    , Inverse Problems, 13, 1997, pp. 1477-1493.

  • R. Potthast, A fast new method to solve inverse scattering
    problems
    , Inverse Problems, 12, 1996, pp. 731-742.

  • D. Colton and M. Piana, The simple method for solving the
    electromagnetic inverse scattering problem: the case of TE
    polarized waves
    , Inverse Problems, 14, 1998, pp. 597-614.

  • A. Kirsch, Characterization of the shape of a scattering
    obstacle using the spectral data of the far field operator
    ,
    Inverse Problems, 14, 1998, pp. 1489-1512.

  • A. Kirsch, Factorization of the far-field operator for the
    inhomogeneous medium case and an application to inverse scattering
    theory
    , Inverse Problems, 15, 1999, pp. 413-429.

  • D. Colton and P. Monk, The detection and monitoring of leukemia
    using electromagnetic waves: mathematical theory
    , Inverse
    Problems, 10, 1994, pp. 1235-1251.

  • D. Colton and P. Monk, The detection and monitoring of leukemia
    using electromagnetic waves: numerical analysis
    , Inverse
    Problems, 11, 1995, pp. 329-342.

  • D. Colton and P. Monk, A Linear Sampling Method for the Detection
    of Leukemia Using Microwaves
    , SIAM Journal on ???,

  • D. Colton and R. Kress, Eigenvalues of the Far Field Operator for
    the Helmholtz Equation in an Absorbing Medium
    , SIAM Journal on
    Applied Mathematics, Vol. 55, No. 6, Dec. 1995, pp. 1724-1735.

  • R. Kress and L. Paivarinta, On the Far Field in Obstacle
    Scattering
    , SIAM Journal on Applied Mathematics, Vol. 59, No. 4,
    pp. 1413-1426.

General Radar Imaging

  • D.L. Mensa, Radar Imaging, International Journal of Imaging
    Systems and Technology, Vol. 4, 148-163.

  • Y. Dai, E.J. Rothwell, K.M. Chen, and D.P. Nyquist, Time-Domain
    Imaging of Radar Targets Using Algorithms for Reconstruction from
    Projections,
    IEEE Trans. on Antennas and Propagation, Vol. 45, No. 8
    August 1997, pp. 1227-1235.

Hao Ling & Coworkers

  • R. Bhalla and H. Ling, Three-Dimensional Scattering Center
    Extraction Using the Shooting and Bouncing Ray Technique
    ,
    IEEE Trans. on Antennas and Propagation, Vol. 44, No. 11, Nov. 1996,
    pp. 1445-1453.

  • L.C. Trintinalia and H. Ling, Joint Time-Frequency ISAR Using
    Adaptive Processing
    , IEEE Trans. on Antennas and Propagation,
    Vol. 45, No. 2, Feb. 1997, pp. 221-227.

  • L.C. Trintinalia, R. Bhalla, and H. Ling, Scattering Center
    Parameterization of Wide-Angle Backscattered Data Using Adaptive
    Gaussian Representation
    , IEEE Trans. on Antennas and Propagation,
    Vol. 45, No. 11, Nov. 1997, pp. 1664-1668.

  • R. Bhalla, J. Moore, and H. Ling, A Global Scattering Center
    Representation of Complex Targets Using the Shooting and Bouncing
    Ray Technique
    , IEEE Trans. on Antennas and Propagation, Vol. 45,
    No. 12, Dec. 1997, pp. 1850-1856.

Inverse Scattering

  • P.M. van den Berg, M.G. cote, and R.E. Kleinman, ‘Blind’ Shape
    Reconstruction from Experimental Data
    , IEEE Trans. on Antennas
    and Propagation, Vol. 43, No. 12, Dec. 1995, pp. 1389-1396.

  • E.L. Miller, A.S. Willsky, Wavelet-Based Methods for the Nonlinear
    Inverse Scattering Problem Using the Extended Born Approximation
    ,
    accepted for publication in Radio Science.

Pierre Moulin & Coworkers

  • P. Moulin, J.A. O’Sullivan, and D.L. Snyder, A Method of Sieves
    for Multiresolution Spectrum Estimation and Radar Imaging
    , IEEE
    Trans. on Information Theory, Vol. 38, No. 2, March 1992, pp.
    801-813.

  • P. Moulin, Wavelet Thresholding Techniques for Power Spectrum
    Estimation
    , IEEE Trans. on Signal Processing, Vol. 41, No. 11,
    November 1994.

David C. Munson & Coworkers

  • O. Arikan and D.C. Munson, A Tomographic Formulation of Bistatic
    Synthetic Aperture Radar
    , Proceedings of ComCon 88, Advances in
    Communications and Control Systems, October 19-21, 1998, Baton
    Rouge, LA.

  • D.C. Munson and R.L. Visentin, A Signal Processing View of
    Strip-Mapping Synthetic Aperture Radar
    , IEEE Trans. on Acoustics,
    Speech, and Signal Processing, Vol. 37, No. 12, Dec. 1989,
    pp. 2131-2147.

  • D.C. Munson and J.L.C. Sanz, Image Reconstruction
    from Frequency-Offset
    Fourier Data
    , Proc. of the IEEE, Vol. 72, No. 6, June 1984,
    pp. 661-669.

  • D.C. Munson, J.D. O’Brien, and W.K. Jenkins,
    A Tomographic Formulation
    of Spotlight-Mode Synthetic Aperture Radar
    , Proc. of the IEEE.,
    Vol. 71, No. 8, Aug. 1998, pp. 917-925.

  • J.L.H. Webb, D.C. Munson, and N.J.S. Stacy, High-Resolution
    Planetary Imaging via Spotlight-Mode Synthetic Aperture Radar
    ,
    IEEE Trans. on Image Processing, Vol. 7, No. 11, Nov. 1998,
    pp. 1571-1582.

  • J.L.H. Webb and D.C. Munson, SAR Image Reconstruction for an
    Arbitrary Radar Path
    , Proceedings ICASSP-95, Vol. 4, pp. 2285-2288.

  • S. Xiao and D.C. Munson, Spotlight-Mode SAR Imaging of a
    Three-Dimensional Scene Using Spectral Estimation Techniques
    ,
    International Geoscience and Remote Sensing Symposium, Vol. 2,
    pp. 642-44.

  • M.W. Castelloe and D.C. Munson, 3-D SAR Imaging via High-Resolution
    Spectral Estimation Methods: Experiments with XPATCH
    , Proceedings
    ICIP-97, Vol. 1, pp. 853-856.

Lee Potter & Coworkers

  • L.C. Potter, D.-M. Chiang, R. Carriere, and M.J. Gerry,
    A GTD-Based Parametric Model for Radar Scattering, IEEE Trans.
    on Antennas and Propagation, Vol. 43, No. 10, Oct. 1995,
    pp. 1058-1066.

  • L.C. Potter and R.L. Moses, Attributed Scattering Centers for
    SAR ATR
    , IEEE Trans. on Image Processing, Vol. 6, No. 1,
    January 1997, pp. 79-91.

Eric Miller & Coworkers

  • A. Sahin and E.L. Miller, Recursive T-Matrix Methods for
    Scattering from Multiple Dielectric and Metallic Objects
    ,
    IEEE Trans
    on Antennas and Propagation, Vol. 46, No. 5, May 1998,
    pp. 672-678.

  • A. Sahin and E.L. Miller, Recursive {T}-Matrix Algorithm for
    Multiple Metallic Cylinders
    , Microwave and Optical Technology
    Letters, Vol. 15, No. 6, August 1997, pp. 360-363.

Joseph A. O’Sullivan

  • N.J. Cutaia and J.A. O’Sullivan, Identification of Maneuvering
    Aircraft Using Class Dependent Kinematic Models

  • N.J. Cutaia and J.A. O’Sullivan, Automatic Target Recognition Using
    Kinematic Priors

  • N.J. Cutaia and J.A. O’Sullivan, Performance Bounds for Recognition
    of Jump-Linear Systems

  • J.A. O’Sullivan, S.P. Jacobs, M.I. Miller, and D.L. Snyder, A
    Likelihood-Based Approach to Joint Target Tracking and
    Identification

  • S.P. Jacobs, J.A. O’Sullivan, and Z. Bekker, Recognition of Ground
    Targets from High Resolution Radar Range-Profiles

  • S.P. Jacobs, J.A. O’Sullivan, M. Faisal, A. Srivastava, D.L. Snyder,
    and M.I. Miller, Automatic Target Recognition Using Sequences of
    High Resolution Radar Range-Profiles

  • S.P. Jacobs, J.A. O’Sullivan, M. Faisal, and D.L. Snyder, Automatic
    target recognition system using high resolution radar

  • S.P. Jacobs and J.A. O’Sullivan, High resolution radar models for
    joint tracking and recognition
    , presented at the 1997 IEEE National
    Radar Conference

Proposals & Stuff

  • R.E. Blahut, Y. Bresler, W.C. Chew, P. Moulin, and D.C. Munson, Jr.,
    “Design and Optimization of Passive and Active Imaging Radar.

Singularity Expansion Method

  • J.D. Young, Radar Imaging from Ramp Response Signatures,
    IEEE Trans. on Antennas and Propagation, Vol. 24, No. 3,
    May 1975, pp. 276-282.

  • M.L. Van Blaricum and R. Mittra, A Technique for Extracting the
    Poles and Residues of a System Directly from Its Transient
    Response
    , IEEE Trans. on Antennas and Propagation, Vol. 23, No. 6,
    Nov. 1975, pp. 777-781.

  • C.-I. Chuang, D.P. Nyquist, K.-M. Chen, and B.C. Drachman,
    Singularity Expansion Method Formulation for Impulse
    Response of a Perfectly Conducting Thick Cylinder
    , Radio Science,
    Vol. 20, No. 5, Sept.-Oct. 1985, pp. 1025-1030.

  • C.W. Chuang and D.L. Moffatt, Natural Resonances of Radar Targets
    Via Prony’s Method and Target Discrimination
    , IEEE Trans. on
    Aerospace and Electronic Systems, Vol. 12, No. 5, Sept. 1976,
    pp. 583-589.

Spectrum Estimation

  • V.C. Chen and W.J. Miceli, Time-Varying Spectral Analysis for
    Radar Imaging of Manoeuvring Targets
    , IEE Proceedings F, Vol.
    145, No. 5, Oct. 1998, p. 262-268.

  • D. Pastina, A. Farina, J. Gunning, P. Lombardo, Two-Dimensional
    Super-Resolution Spectral Analysis Applied to SAR Images
    , IEE
    Proceedings F, Vol. 145, No. 5, Oct. 1998, p. 281-290.

Washinton Univ. Late-80’s Radar Research

  • P. Moulin, J.A. O’Sullivan, D.L. Snyder, and D.G. Porter, An
    Application of Splines to Maximum-Likelihood Radar Imaging
    ,
    International Journal of Imaging Systems and Technology, Vol. 4,
    1992, pp. 256-264.

  • D.L. Snyder, J.A. O’Sullivan, and M.I. Miller, The Use of
    Maximum-Likelihood Estimation for Forming Images of Diffuse Radar
    Targets from Delay-Doppler Data
    , IEEE Trans. Info. Theory, Vol. 35,
    No. 3, March 1989, pp. 536-548.

  • J.A. O’Sullivan, P. Moulin, D.L. Snyder, and S.P. Jacobs,
    Computational Considerations for Maximum-Likelihood Radar
    Imaging
    ,
    Proceedings of the 1990 Conference on Information Sciences and Systems,
    Princeton NJ, March 1990.

  • D.L. Snyder, H.J. Whitehouse, J.T. Wohlschlaeger, and R.C. Lewis,
    A New Approach to Radar/Sonar Imaging, SPIE Proc. Vol. 696,
    Conference on Advanced Algorithms and Architectures, San Diego, CA,
    1986.



Last updated 3/18/01. Send comments or questions to
lanterma@ifp.uiuc.edu.