Compensation for readout noise in CCD images DL Snyder, CW Helstrom, AD Lanterman, M Faisal, RL White JOSA A 12 (2), 272-283, 1995 | 256 | 1995 |
Probability hypothesis density-based multitarget tracking with bistatic range and Doppler observations M Tobias, AD Lanterman IEE Proceedings-Radar, Sonar and Navigation 152 (3), 195-205, 2005 | 195 | 2005 |
Schwarz, Wallace, and Rissanen: Intertwining themes in theories of model selection AD Lanterman International statistical review 69 (2), 185-212, 2001 | 177 | 2001 |
Unscented Kalman filters for multiple target tracking with symmetric measurement equations WF Leven, AD Lanterman IEEE Transactions on Automatic Control 54 (2), 370-375, 2009 | 132 | 2009 |
Coherent MIMO radar: The phased array and orthogonal waveforms MS Davis, GA Showman, AD Lanterman IEEE Aerospace and Electronic Systems Magazine 29 (8), 76-91, 2014 | 129 | 2014 |
A probability hypothesis density-based multitarget tracker using multiple bistatic range and velocity measurements M Tobias, AD Lanterman Thirty-Sixth Southeastern Symposium on System Theory, 2004. Proceedings of …, 2004 | 76 | 2004 |
Techniques for birth-particle placement in the probability hypothesis density particle filter applied to passive radar M Tobias, AD Lanterman IET Radar, Sonar & Navigation 2 (5), 351-365, 2008 | 69 | 2008 |
ATR performance of a Rician model for SAR images MD DeVore, AD Lanterman, JA O'Sullivan Automatic target recognition X 4050, 34-45, 2000 | 57 | 2000 |
Tracking and recognition of airborne targets via commercial television and FM radio signals AD Lanterman Acquisition, Tracking, and Pointing XIII 3692, 189-198, 1999 | 50 | 1999 |
Wide-angle radar imaging using time–frequency distributions AD Lanterman, DC Munson, Y Wu IEE Proceedings-Radar, Sonar and Navigation 150 (4), 203-211, 2003 | 47 | 2003 |
A comparison of the Colton–Kirsch inverse scattering methods with linearized tomographic inverse scattering M Brandfass, AD Lanterman, KF Warnick Inverse Problems 17 (6), 1797, 2001 | 46 | 2001 |
Region-enhanced passive radar imaging M Cetin, AD Lanterman IEE Proceedings-Radar, Sonar and Navigation 152 (3), 185-194, 2005 | 45 | 2005 |
Kullback-Leibler distances for quantifying clutter and models AD Lanterman, JA O'Sullivan, MI Miller Optical engineering 38 (12), 2134-2146, 1999 | 45 | 1999 |
Implementation of a modified Richardson-Lucy method for image restoration on a massively parallel computer to compensate for space-variant point spread of a charge-coupled … M Faisal, AD Lanterman, DL Snyder, RL White JOSA A 12 (12), 2593-2603, 1995 | 45 | 1995 |
Automated target recognition using passive radar and coordinated flight models LM Ehrman, AD Lanterman Automatic Target Recognition XIII 5094, 196-207, 2003 | 39 | 2003 |
General Metropolis-Hastings jump diffusions for automatic target recognition in infrared scenes AD Lanterman, MI Miller, DL Snyder Optical Engineering 36 (4), 1123-1137, 1997 | 39 | 1997 |
Model-based clutter cancellation based on enhanced knowledge-aided parametric covariance estimation JH Bang, WL Melvin, AD Lanterman IEEE Transactions on Aerospace and Electronic Systems 51 (1), 154-166, 2015 | 33 | 2015 |
Extended Kalman filter for estimating aircraft orientation from velocity measurements LM Ehrman, AD Lanterman IET Radar, Sonar & Navigation 2 (1), 12-16, 2008 | 31 | 2008 |
Multitarget tracking using multiple bistatic range measurements with probability hypothesis densities M Tobias, AD Lanterman Signal processing, sensor fusion, and target recognition XIII 5429, 296-305, 2004 | 30 | 2004 |
Deconvolution techniques for passive radar imaging AD Lanterman, DC Munson Jr Algorithms for Synthetic Aperture Radar Imagery IX 4727, 166-177, 2002 | 29 | 2002 |