4.12.2.4 MIMO Radars, Analysis, Use

Li, J., Stoica, P., Xu, L., Roberts, W.,
On Parameter Identifiability of MIMO Radar,
SPLetters(14), No. 12, December 2007, pp. 968-971.
IEEE DOI 0711
BibRef

Frankford, M.T., Johnson, J.T., Ertin, E.,
Including Spatial Correlations in the Statistical MIMO Radar Target Model,
SPLetters(17), No. 6, June 2010, pp. 575-578.
IEEE DOI 1006
BibRef

Wang, D.W., Ma, X.Y., Su, Y.,
Two-Dimensional Imaging via a Narrowband MIMO Radar System With Two Perpendicular Linear Arrays,
IP(19), No. 5, May 2010, pp. 1269-1279.
IEEE DOI 1004
BibRef

Wang, D.W., Ma, X.Y., Chen, A.L., Su, Y.,
High-Resolution Imaging Using a Wideband MIMO Radar System With Two Distributed Arrays,
IP(19), No. 5, May 2010, pp. 1280-1289.
IEEE DOI 1004
BibRef

He, X., Liu, C., Liu, B., Wang, D.,
Sparse Frequency Diverse MIMO Radar Imaging for Off-Grid Target Based on Adaptive Iterative MAP,
RS(5), No. 2, February 2013, pp. 631-647.
DOI Link 1303
BibRef

Yan, H., Shen, G., Zetik, R., Hirsch, O., Thoma, R.S.,
Ultra-Wideband MIMO Ambiguity Function and Its Factorability,
GeoRS(51), No. 1, January 2013, pp. 504-519.
IEEE DOI 1301
BibRef

Tarchi, D., Oliveri, F., Sammartino, P.F.,
MIMO Radar and Ground-Based SAR Imaging Systems: Equivalent Approaches for Remote Sensing,
GeoRS(51), No. 1, January 2013, pp. 425-435.
IEEE DOI 1301
BibRef

Luo, K.[Kai], Manikas, A.,
Superresolution Multitarget Parameter Estimation in MIMO Radar,
GeoRS(51), No. 6, 2013, pp. 3683-3693.
IEEE DOI 1307
nonlinear optimization; Beamforming; interference suppression; parameter estimation BibRef

Ma, C., Yeo, T.S., Zhao, Y., Feng, J.,
MIMO Radar 3D Imaging Based on Combined Amplitude and Total Variation Cost Function With Sequential Order One Negative Exponential Form,
IP(23), No. 5, May 2014, pp. 2168-2183.
IEEE DOI 1405
Imaging BibRef

Wang, W.Q.[Wen-Qin],
MIMO SAR OFDM Chirp Waveform Diversity Design With Random Matrix Modulation,
GeoRS(53), No. 3, March 2015, pp. 1615-1625.
IEEE DOI 1402
MIMO radar BibRef

Shtarkalev, B., Mulgrew, B.,
Effects of FDMA/TDMA Orthogonality on the Gaussian Pulse Train MIMO Ambiguity Function,
SPLetters(22), No. 2, February 2015, pp. 153-157.
IEEE DOI 1410
MIMO radar BibRef

Krieger, G.,
MIMO-SAR: Opportunities and Pitfalls,
GeoRS(52), No. 5, May 2014, pp. 2628-2645.
IEEE DOI 1403
Digital beamforming (DBF) BibRef

Hassanien, A., Vorobyov, S.A., Khabbazibasmenj, A.,
Transmit Radiation Pattern Invariance in MIMO Radar With Application to DOA Estimation,
SPLetters(22), No. 10, October 2015, pp. 1609-1613.
IEEE DOI 1506
MIMO radar BibRef

Wang, J., Chen, L., Liang, X., Ding, C., Li, K.,
Implementation of the OFDM Chirp Waveform on MIMO SAR Systems,
GeoRS(53), No. 9, September 2015, pp. 5218-5228.
IEEE DOI 1506
Chirp BibRef

Huang, P.P.[Ping-Ping], Xu, W.[Wei],
ASTC-MIMO-TOPS Mode with Digital Beam-Forming in Elevation for High-Resolution Wide-Swath Imaging,
RS(7), No. 3, 2015, pp. 2952-2970.
DOI Link 1504
BibRef

Aittomäki, T., Koivunen, V.,
Radar Waveform Sidelobe Level Optimality and Sampling,
SPLetters(23), No. 3, March 2016, pp. 371-375.
IEEE DOI 1603
MIMO radar BibRef

Imani, S.[Sadjad], Ghorashi, S.A.[Seyed Ali],
Transmit Signal and Receive Filter Design in Co-located MIMO Radar Using a Transmit Weighting Matrix,
SPLetters(22), No. 10, October 2015, pp. 1521-1524.
IEEE DOI 1506
MIMO radar BibRef

Haghnegahdar, M.[Mohamad], Imani, S.[Sadjad], Ghorashi, S.A.[Seyed Ali], Mehrshahi, E.[Esfandiar],
SINR Enhancement in Colocated MIMO Radar Using Transmit Covariance Matrix Optimization,
SPLetters(24), No. 3, March 2017, pp. 339-343.
IEEE DOI 1702
Antenna arrays BibRef

Feraidooni, M.M.[Mohammad Mahdi], Gharavian, D.[Davood], Imani, S.[Sadjad],
Signal-dependent interference reduction based on a new transmit covariance matrix and receive filter design for colocated MIMO radar,
SIViP(13), No. 7, October 2019, pp. 1275-1282.
Springer DOI 1911
BibRef

Guruswamy, A., Blum, R.,
Ambiguity Optimization for Frequency-Hopping Waveforms in MIMO Radars With Arbitrary Antenna Separations,
SPLetters(23), No. 9, September 2016, pp. 1231-1235.
IEEE DOI 1609
MIMO radar BibRef

Amiri, R., Behnia, F.,
An Efficient Weighted Least Squares Estimator for Elliptic Localization in Distributed MIMO Radars,
SPLetters(24), No. 6, June 2017, pp. 902-906.
IEEE DOI 1705
Estimation, MIMO, MIMO radar, Mathematical model, Noise measurement, Receivers, Signal processing algorithms, Bistatic range (BR), multiple-input multiple-output (MIMO) radar, target localization, weighted, least, squares, (WLS) BibRef

Kim, S.[Seok], Yu, J.[Jiwoong], Jeon, S.Y.[Se-Yeon], Dewantari, A.[Aulia], Ka, M.H.[Min-Ho],
Signal Processing for a Multiple-Input, Multiple-Output (MIMO) Video Synthetic Aperture Radar (SAR) with Beat Frequency Division Frequency-Modulated Continuous Wave (FMCW),
RS(9), No. 5, 2017, pp. xx-yy.
DOI Link 1706
BibRef

Ganis, A., Navarro, E.M., Schoenlinner, B., Prechtel, U., Meusling, A., Heller, C., Spreng, T., Mietzner, J., Krimmer, C., Haeberle, B., Lutz, S., Loghi, M., Belenguer, A., Esteban, H., Ziegler, V.,
A Portable 3-D Imaging FMCW MIMO Radar Demonstrator With a 24X24 Antenna Array for Medium-Range Applications,
GeoRS(56), No. 1, January 2018, pp. 298-312.
IEEE DOI 1801
Antenna arrays, MIMO, MIMO radar, Radar antennas, Radar imaging, Radar signal processing, 3-D, digital beamforming (DBF), time-division multiplexing (TDM) BibRef

Yang, M., Sun, L., Yuan, X., Chen, B.,
A New Nested MIMO Array With Increased Degrees of Freedom and Hole-Free Difference Coarray,
SPLetters(25), No. 1, January 2018, pp. 40-44.
IEEE DOI 1801
MIMO communication, MIMO radar, antenna arrays, array signal processing, direction-of-arrival estimation, DCSC, sum coarray BibRef

Abtahi, A., Gazor, S., Marvasti, F.,
Off-Grid Localization in MIMO Radars Using Sparsity,
SPLetters(25), No. 2, February 2018, pp. 313-317.
IEEE DOI 1802
MIMO radar, compressed sensing, probability, radar signal processing, MIMO radars, sparse recovery BibRef

Imani, S., Nayebi, M.M., Ghorashi, S.A.,
Colocated MIMO Radar SINR Maximization Under ISL and PSL Constraints,
SPLetters(25), No. 3, March 2018, pp. 422-426.
IEEE DOI 1802
Antenna arrays, Interference, MIMO radar, Optimization, Radar antennas, Signal to noise ratio, Filter design, waveform design BibRef

Jiao, Z.[Zekun], Ding, C.B.[Chi-Biao], Liang, X.D.[Xing-Dong], Chen, L.Y.[Long-Yong], Zhang, F.[Fubo],
Sparse Bayesian Learning Based Three-Dimensional Imaging Algorithm for Off-Grid Air Targets in MIMO Radar Array,
RS(10), No. 3, 2018, pp. xx-yy.
DOI Link 1804
BibRef

Urco, J.M., Chau, J.L., Milla, M.A., Vierinen, J.P., Weber, T.,
Coherent MIMO to Improve Aperture Synthesis Radar Imaging of Field-Aligned Irregularities: First Results at Jicamarca,
GeoRS(56), No. 5, May 2018, pp. 2980-2990.
IEEE DOI 1805
Imaging, MIMO communication, Radar antennas, Radar imaging, Radio transmitters, Receivers, Atmospheric observations, waveform diversity BibRef

Gao, J., Qin, Y., Deng, B., Wang, H., Li, X.,
Novel Efficient 3D Short-Range Imaging Algorithms for a Scanning 1D-MIMO Array,
IP(27), No. 7, July 2018, pp. 3631-3643.
IEEE DOI 1805
Apertures, Approximation algorithms, Imaging, MIMO communication, Radar imaging, Transmitters, synthetic aperture techniques BibRef

Tachibana, M.[Motoko], Yamamoto, K.[Kohei], Maeno, K.[Kurato],
Complex-Valued Fully Convolutional Networks for MIMO Radar Signal Segmentation,
IEICE(E101-D), No. 5, May 2018, pp. 1445-1448.
WWW Link. 1805
BibRef

Hu, X., Tong, N., Zhang, Y., Huang, D.,
MIMO Radar Imaging With Nonorthogonal Waveforms Based on Joint-Block Sparse Recovery,
GeoRS(56), No. 10, October 2018, pp. 5985-5996.
IEEE DOI 1810
Radar imaging, Imaging, MIMO radar, Image reconstruction, MIMO communication, Sparse matrices, Apertures, sparse signal recovery BibRef

Wang, Y., Li, X.,
3-D Imaging Based on Combination of the ISAR Technique and a MIMO Radar System,
GeoRS(56), No. 10, October 2018, pp. 6033-6054.
IEEE DOI 1810
Radar imaging, Imaging, MIMO radar, Receiving antennas, Planar arrays, 3-D reconstruction, velocity estimation BibRef

Karthik, A.K., Blum, R.S.,
Improved Detection Performance for Passive Radars Exploiting Known Communication Signal Form,
SPLetters(25), No. 11, November 2018, pp. 1625-1629.
IEEE DOI 1811
MIMO radar, object detection, passive radar, radar signal processing, signal format, passive radar BibRef

He, Q., Wang, Z., Hu, J., Blum, R.S.,
Performance Gains From Cooperative MIMO Radar and MIMO Communication Systems,
SPLetters(26), No. 1, January 2019, pp. 194-198.
IEEE DOI 1901
Radar antennas, Receivers, MIMO communication, Transmitters, MIMO radar, Cramer-Rao bound (CRB), MIMO, mutual information (MI), radar and communication BibRef

Xu, J., Wang, W., Gui, R.,
Computational Efficient DOA, DOD, and Doppler Estimation Algorithm for MIMO Radar,
SPLetters(26), No. 1, January 2019, pp. 44-48.
IEEE DOI 1901
direction-of-arrival estimation, maximum likelihood estimation, MIMO radar, radar signal processing, search problems, extended invariance principle BibRef

Diebold, A.V.[Aaron V.], Imani, M.F.[Mohammadreza F.], Smith, D.R.[David R.],
Phaseless Radar Coincidence Imaging with a MIMO SAR Platform,
RS(11), No. 5, 2019, pp. xx-yy.
DOI Link 1903
BibRef

Tan, K., Wu, S., Liu, X., Fang, G.,
Omega-K Algorithm for Near-Field 3-D Image Reconstruction Based on Planar SIMO/MIMO Array,
GeoRS(57), No. 4, April 2019, pp. 2381-2394.
IEEE DOI 1904
image reconstruction, image resolution, interpolation, MIMO radar, radar antennas, radar imaging, synthetic aperture radar, Omega-K (?K) BibRef

Wu, C., Zhang, Z., Liang, X., Chen, L., Yu, W., Truong, T.,
Fast 3-D Imaging Algorithm Based on Unitary Transformation and Real-Valued Sparse Representation for MIMO Array SAR,
GeoRS(57), No. 9, September 2019, pp. 7033-7047.
IEEE DOI 1909
Synthetic aperture radar, MIMO communication, Linear antenna arrays, Imaging, Image resolution, unitary transformation BibRef

Wang, J., Liang, X., Chen, L., Wang, L., Li, K.,
First Demonstration of Joint Wireless Communication and High-Resolution SAR Imaging Using Airborne MIMO Radar System,
GeoRS(57), No. 9, September 2019, pp. 6619-6632.
IEEE DOI 1909
OFDM, Radar polarimetry, Synthetic aperture radar, Wireless communication, Radar imaging, space-time coding (STC) BibRef

Baadeche, M., Soltani, F., Gini, F.,
Performance comparison of mean-level CFAR detectors in homogeneous and non-homogeneous Weibull clutter for MIMO radars,
SIViP(13), No. 8, November 2019, pp. 1677-1684.
WWW Link. 1911
BibRef

Wang, F., Li, H.,
Joint Power Allocation for Radar and Communication Co-Existence,
SPLetters(26), No. 11, November 2019, pp. 1608-1612.
IEEE DOI 1911
cooperative communication, MIMO radar, optimisation, radar interference, radio spectrum management, power allocation BibRef

Urco, J.M., Chau, J.L., Weber, T., Vierinen, J.P., Volz, R.,
Sparse Signal Recovery in MIMO Specular Meteor Radars With Waveform Diversity,
GeoRS(57), No. 12, December 2019, pp. 10088-10098.
IEEE DOI 1912
Radar antennas, MIMO communication, MIMO radar, Transmitting antennas, Receiving antennas, Sensors, waveform diversity BibRef

Alshaya, M., Yaghoobi, M., Mulgrew, B.,
High-Resolution Wide-Swath IRCI-Free MIMO SAR,
GeoRS(58), No. 1, January 2020, pp. 713-725.
IEEE DOI 2001
Receivers, Bandwidth, Synthetic aperture radar, Azimuth, MIMO communication, Manganese, Transmitters, system identification BibRef

Cheng, Z., He, Z., Liao, B.,
Target Detection Performance of Collocated MIMO Radar With One-Bit ADCs,
SPLetters(26), No. 12, December 2019, pp. 1832-1836.
IEEE DOI 2001
analogue-digital conversion, covariance matrices, MIMO radar, radar detection, radar signal processing, asymptotic performance BibRef

Tang, W., Jiang, H., Zhang, Q.,
Range-Angle Decoupling and Estimation for FDA-MIMO Radar via Atomic Norm Minimization and Accelerated Proximal Gradient,
SPLetters(27), 2020, pp. 366-370.
IEEE DOI 2004
Atomic norm minimization (ANM), accelerated proximal gradient (APG), range and angle estimation BibRef

Hu, X.W.[Xiao-Wei], Feng, C.Q.[Cun-Qian], Wang, Y.C.[Yu-Chen], Guo, Y.D.[Yi-Duo],
Adaptive Waveform Optimization for MIMO Radar Imaging Based on Sparse Recovery,
GeoRS(58), No. 4, April 2020, pp. 2898-2914.
IEEE DOI 2004
Adaptive waveform optimization, multiple-input multiple-output (MIMO) radar, sparse recovery (SR) BibRef

Ding, S.S.[Shan-Shan], Tong, N.N.[Ning-Ning], Zhang, Y.S.[Yong-Shun], Hu, X.W.[Xiao-Wei], Zhao, X.R.[Xiao-Ru],
Cognitive MIMO Imaging Radar Based on Doppler Filtering Waveform Separation,
GeoRS(58), No. 10, October 2020, pp. 6929-6944.
IEEE DOI 2009
Radar imaging, Imaging, Doppler effect, MIMO communication, Phase modulation, Doppler radar, Cognitive optimization, waveform separation BibRef

Lan, L., Liao, G., Xu, J., Zhang, Y., Liao, B.,
Transceive Beamforming With Accurate Nulling in FDA-MIMO Radar for Imaging,
GeoRS(58), No. 6, June 2020, pp. 4145-4159.
IEEE DOI 2005
Artificial interferences, frequency diverse array multiple-input and multiple-output (FDA-MIMO), transceive beamforming BibRef

Jeon, S., Kim, S., Kim, J., Kim, S., Shin, S., Kim, M., Ka, M.,
W-Band FMCW MIMO Radar System for High-Resolution Multimode Imaging With Time- and Frequency-Division Multiplexing,
GeoRS(58), No. 7, July 2020, pp. 5042-5057.
IEEE DOI 2006
Radar imaging, MIMO communication, Synthetic aperture radar, Bandwidth, Frequency division multiplexing, Imaging, W-band BibRef

Hussain, M.G.M.,
Ambiguity Function of MIMO Radar Based on Quasi-Orthogonal Ultrawideband-Throb Signals,
GeoRS(58), No. 7, July 2020, pp. 4875-4890.
IEEE DOI 2006
Signal resolution, MIMO radar, MIMO communication, Doppler effect, Performance analysis, Doppler radar, Antenna arrays, ultrawideband (UWB) radar BibRef

Zhou, J., Li, H., Cui, W.,
Low-Complexity Joint Transmit and Receive Beamforming for MIMO Radar With Multi-Targets,
SPLetters(27), 2020, pp. 1410-1414.
IEEE DOI 2008
Interference, Signal to noise ratio, Array signal processing, Iterative methods, Complexity theory, MIMO communication, semidefinite relaxation BibRef

Kazemi, S.A.R., Amiri, R., Behnia, F.,
An Approximate ML Estimator for Moving Target Localization in Distributed MIMO Radars,
SPLetters(27), 2020, pp. 1595-1599.
IEEE DOI 2009
Maximum likelihood estimation, Task analysis, Mathematical model, Position measurement, Velocity measurement, Noise measurement, Cramer-Rao bound (CRB) BibRef

Xu, F., Vorobyov, S.A., Yang, X.,
Joint DOD and DOA Estimation in Slow-Time MIMO Radar via PARAFAC Decomposition,
SPLetters(27), 2020, pp. 1495-1499.
IEEE DOI 2009
MIMO radar, Tensile stress, Estimation, Doppler effect, US Department of Defense, Direction-of-arrival estimation, slow-time MIMO radar BibRef

Li, J., Liao, G., Huang, Y., Nehorai, A.,
Manifold Optimization for Joint Design of MIMO-STAP Radars,
SPLetters(27), 2020, pp. 1969-1973.
IEEE DOI 2011
Optimization, Interference, Radar, Manifolds, Signal processing algorithms, Signal to noise ratio, receive filter design BibRef

Wang, Y., Zhang, L., Song, Z.,
Angle Estimation of Weak Scatterers Using Improved MUSIC for Bistatic MIMO Radar,
SPLetters(27), 2020, pp. 2164-2167.
IEEE DOI 2012
Surface waves, Electric fields, Soil, Mirrors, Mathematical model, Dipole antennas, Directive antennas, angle estimation BibRef

Yu, Z., Li, J., Guo, Q., Sun, T.,
Message Passing Based Robust Target Localization in Distributed MIMO Radars in the Presence of Outliers,
SPLetters(27), 2020, pp. 2168-2172.
IEEE DOI 2012
Manganese, Message passing, MIMO radar, Signal processing algorithms, Receivers, Cost function, target localization BibRef

Meinl, F., Kunert, M., Blume, H.,
Hardware acceleration of Maximum-Likelihood angle estimation for automotive MIMO radars,
DASIP16(168-175)
IEEE DOI 1704
MIMO radar BibRef

Zhao, Y.B.[Yong-Bo], Shui, P.L.[Peng-Lang], Liu, H.W.[Hong-Wei],
Computationally Efficient DOA Estimation for MIMO Radar,
CISP09(1-3).
IEEE DOI 0910
BibRef

Zhang, Z.Y.[Zhao-Yang], Zhao, Y.[Yongbo], Huang, J.F.[Jing-Fang],
Array Optimization for MIMO Radar by Genetic Algorithms,
CISP09(1-4).
IEEE DOI 0910
BibRef

Zheng, Z.D.[Zhi Dong], Zhang, J.Y.[Jian Yun], Ma, P.[Peng], Liu, C.S.[Chun Sheng],
Angle Estimation with Automatic Pairing for Bistatic MIMO Radar,
CISP09(1-5).
IEEE DOI 0910
BibRef

Chapter on Computational Vision, Regularization, Connectionist, Morphology, Scale-Space, Perceptual Grouping, Wavelets, Color, Sensors, Optical, Laser, Radar continues in
Phased Array Radars, Analysis, Use .