24.8.6.11.6 Through the Wall Imaging, Radar, Microwave Imaging

Chapter Contents (Back)
Walls. Through the Wall. Radar.
See also Ground Penetrating Radar Systems.
See also Ground Penetrating Radar, Buried Objects.
See also Surveillance Systems, Applied to Baggage Inspection, Cargo Inspection.

Song, L.P., Yu, C., Liu, Q.H.,
Through-Wall Imaging (TWI) by Radar: 2-D Tomographic Results and Analyses,
GeoRS(43), No. 12, December 2005, pp. 2793-2798.
IEEE DOI 0512
BibRef

Ahmad, F., Amin, M.G., Mandapati, G.,
Autofocusing of Through-the-Wall Radar Imagery Under Unknown Wall Characteristics,
IP(16), No. 7, July 2007, pp. 1785-1795.
IEEE DOI 0707
BibRef

Debes, C., Amin, M.G., Zoubir, A.M.,
Target Detection in Single- and Multiple-View Through-the-Wall Radar Imaging,
GeoRS(47), No. 5, May 2009, pp. 1349-1361.
IEEE DOI 0904
BibRef

Yoon, Y.S., Amin, M.G.,
Spatial Filtering for Wall-Clutter Mitigation in Through-the-Wall Radar Imaging,
GeoRS(47), No. 9, September 2009, pp. 3192-3208.
IEEE DOI 0909
BibRef

Estephan, H., Amin, M.G., Yemelyanov, K.M.,
Optimal Waveform Design for Improved Indoor Target Detection in Sensing Through-the-Wall Applications,
GeoRS(48), No. 7, July 2010, pp. 2930-2941.
IEEE DOI 1007
BibRef

Setlur, P., Amin, M.G., Ahmad, F.,
Multipath Model and Exploitation in Through-the-Wall and Urban Radar Sensing,
GeoRS(49), No. 10, October 2011, pp. 4021-4034.
IEEE DOI 1110
BibRef

Debes, C., Zoubir, A.M., Amin, M.G.,
Enhanced Detection Using Target Polarization Signatures in Through-the-Wall Radar Imaging,
GeoRS(50), No. 5, May 2012, pp. 1968-1979.
IEEE DOI 1202
BibRef

Mostafa, A.A., Debes, C., Zoubir, A.M.,
Segmentation by Classification for Through-the-Wall Radar Imaging Using Polarization Signatures,
GeoRS(50), No. 9, September 2012, pp. 3425-3439.
IEEE DOI 1209
BibRef

Seng, C.H.[Cher Hau], Bouzerdoum, A., Amin, M.G., Phung, S.L.[Son Lam],
Probabilistic Fuzzy Image Fusion Approach for Radar Through Wall Sensing,
IP(22), No. 12, 2013, pp. 4938-4951.
IEEE DOI 1312
Gaussian processes BibRef

Tivive, F.H.C., Bouzerdoum, A., Amin, M.G.,
A Subspace Projection Approach for Wall Clutter Mitigation in Through-the-Wall Radar Imaging,
GeoRS(53), No. 4, April 2015, pp. 2108-2122.
IEEE DOI 1502
frequency measurement BibRef

Seng, C.H., Bouzerdoum, A., Tivive, F.H.C., Amin, M.G.,
Fuzzy Logic-Based Image Fusion for Multi-view Through-the-Wall Radar,
DICTA10(423-428).
IEEE DOI 1012
BibRef

Soldovieri, F., Solimene, R., Brancaccio, A., Pierri, R.,
Localization of the Interfaces of a Slab Hidden Behind a Wall,
GeoRS(45), No. 8, August 2007, pp. 2471-2482.
IEEE DOI 0709
BibRef

Soldovieri, F., Solimene, R., Prisco, G.,
A Multiarray Tomographic Approach for Through-Wall Imaging,
GeoRS(46), No. 4, April 2008, pp. 1192-1199.
IEEE DOI 0803
BibRef

Solimene, R., Soldovieri, F., Prisco, G., Pierri, R.,
Three-Dimensional Through-Wall Imaging Under Ambiguous Wall Parameters,
GeoRS(47), No. 5, May 2009, pp. 1310-1317.
IEEE DOI 0904
BibRef

Solimene, R., Buonanno, A., Soldovieri, F., Pierri, R.,
Physical Optics Imaging of 3-D PEC Objects: Vector and Multipolarized Approaches,
GeoRS(48), No. 4, April 2010, pp. 1799-1808.
IEEE DOI 1003
Imaging perfect electric conducting objects from scattered field measurements. Apply physical optics methodology. BibRef

Soldovieri, F., Brancaccio, A., Prisco, G., Leone, G., Pierri, R.,
A Kirchhoff-Based Shape Reconstruction Algorithm for the Multimonostatic Configuration: The Realistic Case of Buried Pipes,
GeoRS(46), No. 10, October 2008, pp. 3031-3038.
IEEE DOI 0810
BibRef

Hantscher, S., Reisenzahn, A., Diskus, C.G.,
Through-Wall Imaging With a 3-D UWB SAR Algorithm,
SPLetters(15), No. 1, 2008, pp. 269-272.
IEEE DOI 0802
BibRef

Dehmollaian, M., Sarabandi, K.,
Refocusing Through Building Walls Using Synthetic Aperture Radar,
GeoRS(46), No. 6, June 2008, pp. 1589-1599.
IEEE DOI 0711
BibRef

Dehmollaian, M., Thiel, M., Sarabandi, K.,
Through-the-Wall Imaging Using Differential SAR,
GeoRS(47), No. 5, May 2009, pp. 1289-1296.
IEEE DOI 0904
BibRef

Yang, Y., Fathy, A.E.,
Development and Implementation of a Real-Time See-Through-Wall Radar System Based on FPGA,
GeoRS(47), No. 5, May 2009, pp. 1270-1280.
IEEE DOI 0904
BibRef

Johnson, J.T., Demir, M.A., Majurec, N.,
Through-Wall Sensing With Multifrequency Microwave Radiometry: A Proof-of-Concept Demonstration,
GeoRS(47), No. 5, May 2009, pp. 1281-1288.
IEEE DOI 0904
BibRef

Maaref, N., Millot, P., Pichot, P., Picon, O.,
A Study of UWB FM-CW Radar for the Detection of Human Beings in Motion Inside a Building,
GeoRS(47), No. 5, May 2009, pp. 1297-1300.
IEEE DOI 0904
BibRef

Yacoub, H., Sarkar, T.K.,
A Homomorphic Approach for Through-Wall Sensing,
GeoRS(47), No. 5, May 2009, pp. 1318-1327.
IEEE DOI 0904
BibRef

Yemelyanov, K.M., Engheta, N., Hoorfar, A., McVay, J.A.,
Adaptive Polarization Contrast Techniques for Through-Wall Microwave Imaging Applications,
GeoRS(47), No. 5, May 2009, pp. 1362-1374.
IEEE DOI 0904
BibRef

Chang, P.C., Burkholder, R.J., Volakis, J.L., Marhefka, R.J., Bayram, Y.,
High-Frequency EM Characterization of Through-Wall Building Imaging,
GeoRS(47), No. 5, May 2009, pp. 1375-1387.
IEEE DOI 0904
BibRef

Dogaru, T., Le, C.,
SAR Images of Rooms and Buildings Based on FDTD Computer Models,
GeoRS(47), No. 5, May 2009, pp. 1388-1401.
IEEE DOI 0904
BibRef

Hunt, A.R.,
Use of a Frequency-Hopping Radar for Imaging and Motion Detection Through Walls,
GeoRS(47), No. 5, May 2009, pp. 1402-1408.
IEEE DOI 0904
BibRef

Le, C., Dogaru, T., Nguyen, L., Ressler, M.A.,
Ultrawideband (UWB) Radar Imaging of Building Interior: Measurements and Predictions,
GeoRS(47), No. 5, May 2009, pp. 1409-1420.
IEEE DOI 0904
BibRef

Venkatasubramanian, V., Leung, H., Liu, X.,
Chaos UWB Radar for Through-the-Wall Imaging,
IP(18), No. 6, June 2009, pp. 1255-1265.
IEEE DOI 0905
BibRef

Gonzalez-Partida, J.T., Almorox-Gonzalez, P., Burgos-Garcia, M., Dorta-Naranjo, B.P., Alonso, J.I.,
Through-the-Wall Surveillance With Millimeter-Wave LFMCW Radars,
GeoRS(47), No. 6, June 2009, pp. 1796-1805.
IEEE DOI 0905
BibRef

Li, L., Zhang, W., Li, F.,
A Novel Autofocusing Approach for Real-Time Through-Wall Imaging Under Unknown Wall Characteristics,
GeoRS(48), No. 1, January 2010, pp. 423-431.
IEEE DOI 1001
BibRef

Huang, Q.[Qiong], Qu, L.[Lele], Wu, B.H.[Bing-Heng], Fang, G.Y.[Guang-You],
UWB Through-Wall Imaging Based on Compressive Sensing,
GeoRS(48), No. 3, March 2010, pp. 1408-1415.
IEEE DOI 1003
BibRef
And: Corrections: GeoRS(48), No. 3, March 2010, pp. 1634-1634.
IEEE DOI 1003
BibRef

Ram, S., Christianson, C., Kim, Y., Ling, H.,
Simulation and Analysis of Human Micro-Dopplers in Through-Wall Environments,
GeoRS(48), No. 4, April 2010, pp. 2015-2023.
IEEE DOI 1003
BibRef

Sume, A., Gustafsson, M., Herberthson, M., Janis, A., Nilsson, S., Rahm, J., Orbom, A.,
Radar Detection of Moving Targets Behind Corners,
GeoRS(49), No. 6, June 2011, pp. 2259-2267.
IEEE DOI 1106
BibRef

Solimene, R., di Napoli, R., Soldovieri, F., Pierri, R.,
TWI for an Unknown Symmetric Lossless Wall,
GeoRS(49), No. 8, August 2011, pp. 2876-2886.
IEEE DOI 1108
BibRef

Smith, G.E., Mobasseri, B.G.,
Robust Through-the-Wall Radar Image Classification Using a Target-Model Alignment Procedure,
IP(21), No. 2, February 2012, pp. 754-767.
IEEE DOI 1201
BibRef

Smith, G.E., Mobasseri, B.G.,
Analysis and Exploitation of Multipath Ghosts in Radar Target Image Classification,
IP(23), No. 4, April 2014, pp. 1581-1592.
IEEE DOI 1404
Bayes methods BibRef

Mobasseri, B.G.[Bijan G.], Rosenbaum, Z.[Zachary],
3D Classification of Through-the-Wall Radar Images Using Statistical Object Models,
Southwest08(149-152).
IEEE DOI 0803
BibRef

Chetty, K., Smith, G.E., Woodbridge, K.,
Through-the-Wall Sensing of Personnel Using Passive Bistatic WiFi Radar at Standoff Distances,
GeoRS(50), No. 4, April 2012, pp. 1218-1226.
IEEE DOI 1204
BibRef

Wang, Y., Fathy, A.E.,
Advanced System Level Simulation Platform for Three-Dimensional UWB Through-Wall Imaging SAR Using Time-Domain Approach,
GeoRS(50), No. 5, May 2012, pp. 1986-2000.
IEEE DOI 1202
BibRef

Chen, P.H.[Pin-Heng], Shastry, M.C., Lai, C.P.[Chieh-Ping], Narayanan, R.M.,
A Portable Real-Time Digital Noise Radar System for Through-the-Wall Imaging,
GeoRS(50), No. 10, October 2012, pp. 4123-4134.
IEEE DOI 1210
BibRef

Jin, T., Lou, J., Zhou, Z.,
Extraction of Landmine Features Using a Forward-Looking Ground-Penetrating Radar With MIMO Array,
GeoRS(50), No. 10, October 2012, pp. 4135-4144.
IEEE DOI 1210
BibRef

Ahmad, F., Amin, M.G.,
Through-the-Wall Human Motion Indication Using Sparsity-Driven Change Detection,
GeoRS(51), No. 2, February 2013, pp. 881-890.
IEEE DOI 1302
Cited by 1 BibRef

Jin, T., Chen, B., Zhou, Z.,
Image-Domain Estimation of Wall Parameters for Autofocusing of Through-the-Wall SAR Imagery,
GeoRS(51), No. 3, March 2013, pp. 1836-1843.
IEEE DOI 1303
BibRef

Zhang, W., Hoorfar, A.,
Three-Dimensional Real-Time Through-the-Wall Radar Imaging with Diffraction Tomographic Algorithm,
GeoRS(51), No. 7, 2013, pp. 4155-4163.
IEEE DOI 1307
Tomography; Diffraction tomography (DT); Green's function; polarimetric imaging; through-the-wall radar imaging (TWRI) BibRef

Setlur, P., Alli, G., Nuzzo, L.,
Multipath Exploitation in Through-Wall Radar Imaging Via Point Spread Functions,
IP(22), No. 12, 2013, pp. 4571-4586.
IEEE DOI 1312
array signal processing BibRef

Fioranelli, F., Salous, S., Raimundo, X.,
Frequency-Modulated Interrupted Continuous Wave as Wall Removal Technique in Through-the-Wall Imaging,
GeoRS(52), No. 10, October 2014, pp. 6272-6283.
IEEE DOI 1407
Attenuation BibRef

Gennarelli, G., Soldovieri, F.,
Radar Imaging Through Cinderblock Walls: Achievable Performance by a Model-Corrected Linear Inverse Scattering Approach,
GeoRS(52), No. 10, October 2014, pp. 6738-6749.
IEEE DOI 1407
Cutoff frequency BibRef

Gennarelli, G., Riccio, G., Solimene, R., Soldovieri, F.,
Radar Imaging Through a Building Corner,
GeoRS(52), No. 10, October 2014, pp. 6750-6761.
IEEE DOI 1407
Buildings BibRef

Xu, J.J.[Jing-Jia], Dehaghani, A.R., Gao, F.[Fei], Wang, L.W.[Lin-Wei],
Noninvasive Transmural Electrophysiological Imaging Based on Minimization of Total-Variation Functional,
MedImg(33), No. 9, September 2014, pp. 1860-1874.
IEEE DOI 1410
bioelectric phenomena BibRef

Li, T.J.[Ting-Jun], Yang, H.N.[Hai-Ning], Zhou, Z.O.[Zheng-Ou],
RFI Suppression Based on Phase-Coded Stepped-Frequency Waveform in Through-Wall Radar,
GeoRS(53), No. 3, March 2015, pp. 1583-1591.
IEEE DOI 1412
object detection BibRef

Ahmad, F., Qian, J.[Jiang], Amin, M.G.,
Wall Clutter Mitigation Using Discrete Prolate Spheroidal Sequences for Sparse Reconstruction of Indoor Stationary Scenes,
GeoRS(53), No. 3, March 2015, pp. 1549-1557.
IEEE DOI 1412
For through the wall imaging. BibRef

Gennarelli, G., Vivone, G., Braca, P., Soldovieri, F., Amin, M.G.,
Multiple Extended Target Tracking for Through-Wall Radars,
GeoRS(53), No. 12, December 2015, pp. 6482-6494.
IEEE DOI 1512
electromagnetic wave propagation BibRef

del Pozo, S.[Susana], Herrero-Pascual, J.[Jesús], Felipe-García, B.[Beatriz], Hernández-López, D.[David], Rodríguez-Gonzálvez, P.[Pablo], González-Aguilera, D.[Diego],
Multispectral Radiometric Analysis of Façades to Detect Pathologies from Active and Passive Remote Sensing,
RS(8), No. 1, 2016, pp. 80.
DOI Link 1602
BibRef
Earlier:
Multi-Sensor Radiometric Study to Detect Pathologies in Historical Buildings,
3D-Arch15(193-200).
DOI Link 1504
BibRef

Adib, F.[Fadel],
Seeing through walls with wireless signals,
SPIE(Newsroom), January 25, 2016
DOI Link 1602
Radio frequency reflections can be used to capture a human figure through occlusions. BibRef

Zoofaghari, M., Tavakoli, A., Dehmollaian, M.,
Reconstruction of Concealed Objects in a Corrugated Wall With a Smoothly Varying Roughness Using the Linear Sampling Method,
GeoRS(54), No. 6, June 2016, pp. 3589-3598.
IEEE DOI 1606
Green's function methods BibRef

Velten, A.[Andreas],
Decoding hidden light-field information to see around corners,
SPIE(Newsroom), July 20, 2016
DOI Link 1608
The complex paths of scattered light that are typically ignored in imaging can be analyzed using time-of-flight imaging systems. BibRef

Gennarelli, G.[Gianluca], Ludeno, G.[Giovanni], Soldovieri, F.[Francesco],
Real-Time Through-Wall Situation Awareness Using a Microwave Doppler Radar Sensor,
RS(8), No. 8, 2016, pp. 621.
DOI Link 1609
BibRef

Yektakhah, B., Sarabandi, K.,
All-Directions Through-the-Wall Radar Imaging Using a Small Number of Moving Transceivers,
GeoRS(54), No. 11, November 2016, pp. 6415-6428.
IEEE DOI 1610
Buildings BibRef

Yektakhah, B., Sarabandi, K.,
All-Directions Through-the-Wall Imaging Using a Small Number of Moving Omnidirectional Bi-Static FMCW Transceivers,
GeoRS(57), No. 5, May 2019, pp. 2618-2627.
IEEE DOI 1905
CW radar, directive antennas, FM radar, image resolution, linear antenna arrays, omnidirectional antennas, radar imaging, through-the-wall imaging BibRef

Gumbmann, F.[Frank], Ahmed, S.S.[Sherif Sayed],
Novel walk-through imaging system for security screening,
SPIE(Newsroom), November 14, 2016.
DOI Link 1701
High throughput, enhanced detection performance, and full-body illumination can be achieved with a scanner concept based on existing millimeter-wave technology. BibRef

Qi, F.[Fugui], Lv, H.[Hao], Liang, F.[Fulai], Li, Z.[Zhao], Yu, X.[Xiao], Wang, J.Q.[Jian-Qi],
MHHT-Based Method for Analysis of Micro-Doppler Signatures for Human Finer-Grained Activity Using Through-Wall SFCW Radar,
RS(9), No. 3, 2017, pp. xx-yy.
DOI Link 1704
BibRef

Sampaio, E.E.S.,
Propagation of Radio and Microwave Frequency Electromagnetic Pulses in Dielectric and Magnetic Dispersive Media,
GeoRS(55), No. 4, April 2017, pp. 2340-2350.
IEEE DOI 1704
dielectric materials BibRef

Sun, S., Kooij, B.J., Yarovoy, A.G.,
Linearized 3-D Electromagnetic Contrast Source Inversion and Its Applications to Half-Space Configurations,
GeoRS(55), No. 6, June 2017, pp. 3475-3487.
IEEE DOI 1706
Dielectrics, Ground penetrating radar, Image reconstruction, Inverse problems, Iterative methods, Scattering, l1-norm regularization, 3-D electromagnetic (EM) contrast source inversion (CSI), cross-validation (CV), finite difference frequency domain (FDFD), ground-penetrating radar (GPR), through-the-wall, (TW), imaging BibRef

Wang, X., Li, G., Wan, Q., Burkholder, R.J.,
Look-Ahead Hybrid Matching Pursuit for Multipolarization Through-Wall Radar Imaging,
GeoRS(55), No. 7, July 2017, pp. 4072-4081.
IEEE DOI 1706
Antenna measurements, Greedy algorithms, Matching pursuit algorithms, Radar imaging, Radar measurements, Radar polarimetry, Compressive sensing (CS), joint sparsity pattern, polarimetric radar, through-wall, radar, imaging, (TWRI) BibRef

Wang, X., Li, G., Liu, Y., Amin, M.G.,
Two-Level Block Matching Pursuit for Polarimetric Through-Wall Radar Imaging,
GeoRS(56), No. 3, March 2018, pp. 1533-1545.
IEEE DOI 1804
iterative methods, least squares approximations, radar imaging, radar polarimetry, time-frequency analysis, TLBMP, X-band TWRI, through-wall radar imaging (TWRI) BibRef

Wang, X., Li, G., Liu, Y., Amin, M.G.,
Enhanced 1-Bit Radar Imaging by Exploiting Two-Level Block Sparsity,
GeoRS(57), No. 2, February 2019, pp. 1131-1141.
IEEE DOI 1901
Radar imaging, Clustering algorithms, Extraterrestrial measurements, Quantization (signal), Imaging, radar imaging BibRef

Wang, W.[Wei], Jiang, Y.[Yu], Wang, D.[Dan], Zhang, M.[Min],
Withdrawn: Through wall human detection under small samples based on deep learning algorithm,
PR(72), No. 1, 2017, pp. 458-465.
Elsevier DOI 1708
BibRef
And: Withdrawn - premature publication. PR(76), No. 1, 2018, pp. 766.
Elsevier DOI 1801
Target identification BibRef

Tang, V.H., Bouzerdoum, A., Phung, S.L.,
Multipolarization Through-Wall Radar Imaging Using Low-Rank and Jointly-Sparse Representations,
IP(27), No. 4, April 2018, pp. 1763-1776.
IEEE DOI 1802
compressed sensing, data acquisition, image reconstruction, image representation, iterative methods, radar clutter, wall clutter mitigation BibRef

Tivive, F.H.C., Bouzerdoum, A.,
Clutter Removal in Through-the-Wall Radar Imaging Using Sparse Autoencoder With Low-Rank Projection,
GeoRS(59), No. 2, February 2021, pp. 1118-1129.
IEEE DOI 2101
Clutter, Radar antennas, Radar imaging, Antenna arrays, Radar clutter, Training, Clutter removal, low-rank (LR) projection, through-the-wall radar imaging (TWRI) BibRef

Abedi, H., Zakeri, B.,
Through-the-Multilayered Wall Imaging Using Passive Synthetic Aperture Radar,
GeoRS(57), No. 7, July 2019, pp. 4181-4191.
IEEE DOI 1907
Synthetic aperture radar, Receivers, Imaging, Radar imaging, Radio transmitters, Wideband, Background subtraction, zero incident angle PSAR (Z-PSAR) BibRef

Hu, Z.P.[Zhi-Peng], Zeng, Z.F.[Zhao-Fa], Wang, K.[Kun], Feng, W.K.[Wei-Ke], Zhang, J.M.[Jian-Min], Lu, Q.[Qi], Kang, X.Q.[Xiao-Qian],
Design and Analysis of a UWB MIMO Radar System with Miniaturized Vivaldi Antenna for Through-Wall Imaging,
RS(11), No. 16, 2019, pp. xx-yy.
DOI Link 1909
BibRef

Sun, Y.P.[Yan-Peng], Chen, L.[Li], Qu, L.[Lele],
Through-the-wall radar imaging algorithm for moving target under wall parameter uncertainties,
IET-IPR(13), No. 11, 19 September 2019, pp. 1903-1908.
DOI Link 1909
BibRef

Ma, Y.Y.[Yang-Yang], Liang, F.[Fulai], Wang, P.F.[Peng-Fei], Lv, H.[Hao], Yu, X.[Xiao], Zhang, Y.[Yang], Wang, J.Q.[Jian-Qi],
An Accurate Method to Distinguish Between Stationary Human and Dog Targets Under Through-Wall Condition Using UWB Radar,
RS(11), No. 21, 2019, pp. xx-yy.
DOI Link 1911
BibRef

Tivive, F.H.C., Bouzerdoum, A.,
Through-the-Wall Target Separation Using Low-Rank and Variational Mode Decomposition,
GeoRS(57), No. 12, December 2019, pp. 9928-9940.
IEEE DOI 1912
Radar imaging, Radar antennas, Clutter, Array signal processing, Bandwidth, Low-rank constraint, target separation, variational mode decomposition (VMD) BibRef

Liu, H., Huang, C., Gan, L., Zhou, Y., Truong, T.,
Clutter Reduction and Target Tracking in Through-the-Wall Radar,
GeoRS(58), No. 1, January 2020, pp. 486-499.
IEEE DOI 2001
Target tracking, Clutter, Radar tracking, Optimization, Sparse matrices, Clutter reduction, Kalman filter (KF), tracking BibRef

Tang, V.H., Bouzerdoum, A., Phung, S.L.,
Compressive Radar Imaging of Stationary Indoor Targets With Low-Rank Plus Jointly Sparse and Total Variation Regularizations,
IP(29), 2020, pp. 4598-4613.
IEEE DOI 2003
Clutter, Radar imaging, TV, Image reconstruction, Optimization, Antenna measurements, Through-the-wall radar imaging, proximal gradient technique BibRef

Vishwakarma, S., Ram, S.S.,
Mitigation of Through-Wall Distortions of Frontal Radar Images Using Denoising Autoencoders,
GeoRS(58), No. 9, September 2020, pp. 6650-6663.
IEEE DOI 2008
Radar imaging, Clutter, Noise reduction, Training, Doppler radar, Aerodynamics, Denoising autoencoders, through-wall radar BibRef

Song, Y.K.[Yong-Kun], Jin, T.[Tian], Dai, Y.P.[Yong-Peng], Song, Y.P.[Yong-Ping], Zhou, X.L.[Xiao-Long],
Through-Wall Human Pose Reconstruction via UWB MIMO Radar and 3D CNN,
RS(13), No. 2, 2021, pp. xx-yy.
DOI Link 2101
BibRef

Tivive, F.H.C., Bouzerdoum, A.,
Toward Moving Target Detection in Through-the-Wall Radar Imaging,
GeoRS(59), No. 3, March 2021, pp. 2028-2040.
IEEE DOI 2103
Radar imaging, Clutter, Radar detection, Radar antennas, Tensors, Object detection, Detection of stationary and moving targets, wall clutter removal BibRef

Shen, S.Y.[Si-Yuan], Wang, Z.[Zi], Liu, P.[Ping], Pan, Z.Q.[Zheng-Qing], Li, R.Q.[Rui-Qian], Gao, T.[Tian], Li, S.Y.[Shi-Ying], Yu, J.Y.[Jing-Yi],
Non-line-of-Sight Imaging via Neural Transient Fields,
PAMI(43), No. 7, July 2021, pp. 2257-2268.
IEEE DOI 2106
Transient analysis, Image reconstruction, Imaging, Nonlinear optics, Measurement by laser beam, neural rendering BibRef

Yu, Y.H.[Yan-Hua], Shen, S.Y.[Si-Yuan], Wang, Z.[Zi], Huang, B.B.[Bin-Bin], Wang, Y.[Yuehan], Peng, X.Y.[Xing-Yue], Xia, S.[Suan], Liu, P.[Ping], Li, R.Q.[Rui-Qian], Li, S.Y.[Shi-Ying],
Enhancing Non-line-of-sight Imaging via Learnable Inverse Kernel and Attention Mechanisms,
ICCV23(10529-10539)
IEEE DOI Code:
WWW Link. 2401
BibRef

Randazzo, A.[Andrea], Ponti, C.[Cristina], Fedeli, A.[Alessandro], Estatico, C.[Claudio], d'Atanasio, P.[Paolo], Pastorino, M.[Matteo], Schettini, G.[Giuseppe],
A Through-the-Wall Imaging Approach Based on a TSVD/Variable-Exponent Lebesgue-Space Method,
RS(13), No. 11, 2021, pp. xx-yy.
DOI Link 2106
BibRef

Gao, L.[Lan], Dachena, C.[Chiara], Wu, K.J.[Kai-Jun], Fedeli, A.[Alessandro], Pastorino, M.[Matteo], Randazzo, A.[Andrea], Wu, X.P.[Xiao-Ping], Lambot, S.[Sébastien],
Full-Wave Modeling and Inversion of UWB Radar Data for Wave Propagation in Cylindrical Objects,
RS(13), No. 12, 2021, pp. xx-yy.
DOI Link 2106
BibRef

Li, Z.[Zhi], Jin, T.[Tian], Dai, Y.[Yongpeng], Song, Y.[Yongkun],
Through-Wall Multi-Subject Localization and Vital Signs Monitoring Using UWB MIMO Imaging Radar,
RS(13), No. 15, 2021, pp. xx-yy.
DOI Link 2108
BibRef

Randazzo, A.[Andrea], Ponti, C.[Cristina], Fedeli, A.[Alessandro], Estatico, C.[Claudio], d'Atanasio, P.[Paolo], Pastorino, M.[Matteo], Schettini, G.[Giuseppe],
A Two-Step Inverse-Scattering Technique in Variable-Exponent Lebesgue Spaces for Through-the-Wall Microwave Imaging: Experimental Results,
GeoRS(59), No. 9, September 2021, pp. 7189-7200.
IEEE DOI 2109
Imaging, Image reconstruction, Dielectrics, Radar imaging, Antenna measurements, Microwave theory and techniques, variable-exponent Lebesgue spaces BibRef

Klibanov, M.V.[Michael V.], Smirnov, A.V.[Alexey V.], Khoa, V.A.[Vo A.], Sullivan, A.J.[Anders J.], Nguyen, L.H.[Lam H.],
Through-the-Wall Nonlinear SAR Imaging,
GeoRS(59), No. 9, September 2021, pp. 7475-7486.
IEEE DOI 2109
Inverse problems, Scattering, Imaging, Dielectrics, Dielectric constant, Radar polarimetry, Approximation methods, through-the-wall imaging (TWI) BibRef

Shi, C.[Cheng], Ni, Z.K.[Zhi-Kang], Pan, J.[Jun], Zheng, Z.J.[Zhi-Jie], Ye, S.[Shengbo], Fang, G.Y.[Guang-You],
A Method for Reducing Timing Jitter's Impact in Through-Wall Human Detection by Ultra-Wideband Impulse Radar,
RS(13), No. 18, 2021, pp. xx-yy.
DOI Link 2109
BibRef

Chen, S.B.[Si-Bao], Wei, Q.S.[Qing-Song], Wang, W.Z.[Wen-Zhong], Tang, J.[Jin], Luo, B.[Bin], Geng, R.[Ruixu], Hu, Y.[Yang], Lu, Z.[Zhi], Yu, C.[Cong], Li, H.Q.[Hou-Qiang], Zhang, H.Y.[Heng-Yu], Chen, Y.[Yan],
Passive Non-Line-of-Sight Imaging Using Optimal Transport,
IP(31), 2022, pp. 110-124.
IEEE DOI 2112
Nonlinear optics, Imaging, Image reconstruction, Optical imaging, Relays, Cameras, Task analysis, Non-line-of-sight imaging, manifold embedding BibRef

Rezvani, B.[Behrooz], Hassibi, B.[Babak], Brännström, F.[Fredrik], Manteghi, M.[Majid],
Letting Robocars See Around Corners: Using several bands of radar at once can give cars a kind of second sight,
Spectrum(59), No. 2, February 2022, pp. 36-41.
IEEE DOI 2202
Target tracking, Sensors, Object recognition, Automobiles, Meteorology BibRef

Wei, Y.[Yilin], Sun, B.[Bing], Zhou, Y.T.[Yue-Tong], Wang, H.C.[Hao-Chuan],
Non-Line-of-Sight Moving Target Detection Method Based on Noise Suppression,
RS(14), No. 7, 2022, pp. xx-yy.
DOI Link 2205
BibRef

Yang, Y.P.[Yi-Ping], Chen, C.[Chuan], Jia, Y.[Yong], Cui, G.[Guolong], Guo, S.[Shisheng],
Non-Line-of-Sight Target Detection Based on Dual-View Observation with Single-Channel UWB Radar,
RS(14), No. 18, 2022, pp. xx-yy.
DOI Link 2209
BibRef

Yu, L.[Lei], Zhang, X.[Xiang], Liao, W.[Wei], Yang, W.[Wen], Xia, G.S.[Gui-Song],
Learning to See Through with Events,
PAMI(45), No. 7, July 2023, pp. 8660-8678.
IEEE DOI 2306
Cameras, Image reconstruction, Lighting, Imaging, Brightness, Visualization, Task analysis, Synthetic aperture imaging, spiking neural network BibRef

Pan, J.[Jun], Zheng, Z.J.[Zhi-Jie], Zhao, D.[Di], Yan, K.[Kun], Nie, J.L.[Jin-Liang], Zhou, B.[Bin], Fang, G.Y.[Guang-You],
A Multi-Target Detection Method Based on Improved U-Net for UWB MIMO Through-Wall Radar,
RS(15), No. 13, 2023, pp. 3434.
DOI Link 2307
BibRef

Liang, X.[Xiao], Ye, S.[Shengbo], Song, C.Y.[Chen-Yang], Kong, Q.Y.[Qing-Yang], Liu, X.J.[Xiao-Jun], Fang, G.Y.[Guang-You],
Enhancement of Vital Signals for UWB Through-Wall Radar Using Low-Rank and Block-Sparse Matrix Decomposition,
RS(16), No. 4, 2024, pp. 620.
DOI Link 2402
BibRef


Strohmayer, J.[Julian], Kampel, M.[Martin],
Wifi CSI-based Long-range Through-wall Human Activity Recognition with the ESP32,
CVS23(41-50).
Springer DOI 2312
BibRef

Li, Y.[Yue], Peng, J.[Jiayong], Ye, J.[Juntian], Zhang, Y.[Yueyi], Xu, F.H.[Fei-Hu], Xiong, Z.W.[Zhi-Wei],
NLOST: Non-Line-of-Sight Imaging with Transformer,
CVPR23(13313-13322)
IEEE DOI 2309
BibRef

Somasundaram, S.[Siddharth], Dave, A.[Akshat], Henley, C.[Connor], Veeraraghavan, A.[Ashok], Raskar, R.[Ramesh],
Role of Transients in Two-Bounce Non-Line-of-Sight Imaging,
CVPR23(9192-9201)
IEEE DOI 2309
BibRef

Wang, Y.H.[Yi-Hao], Wang, Z.G.[Zhi-Gang], Zhao, B.[Bin], Wang, D.[Dong], Chen, M.[Mulin], Li, X.L.[Xue-Long],
Propagate and Calibrate: Real-Time Passive Non-Line-of-Sight Tracking,
CVPR23(972-981)
IEEE DOI 2309
BibRef

Liu, X.T.[Xin-Tong], Wang, J.Y.[Jian-Yu], Xiao, L.[Leping], Fu, X.[Xing], Qiu, L.Y.[Ling-Yun], Shi, Z.Q.[Zuo-Qiang],
Few-Shot Non-Line-of-Sight Imaging with Signal-Surface Collaborative Regularization,
CVPR23(13303-13312)
IEEE DOI 2309
BibRef
And: A2, A1, A3, A6, A5, A4:
Non-Line-of-Sight Imaging with Signal Superresolution Network,
CVPR23(17420-17429)
IEEE DOI 2309
BibRef

Jiang, D.Y.[De-Yang], Liu, X.C.[Xiao-Chun], Luo, J.W.[Jian-Wen], Liao, Z.P.[Zheng-Peng], Velten, A.[Andreas], Lou, X.[Xin],
Ring and Radius Sampling Based Phasor Field Diffraction Algorithm for Non-Line-of-Sight Reconstruction,
PAMI(44), No. 11, November 2022, pp. 7841-7853.
IEEE DOI 2210
Nonlinear optics, Imaging, Kernel, Image reconstruction, Single-photon avalanche diodes, Convolution, radius sampling BibRef

Sharma, P.[Prafull], Aittala, M.[Miika], Schechner, Y.Y.[Yoav Y.], Torralba, A.[Antonio], Wornell, G.W.[Gregory W.], Freeman, W.T.[William T.], Durand, F.[Frédo],
What You Can Learn by Staring at a Blank Wall,
ICCV21(2310-2319)
IEEE DOI 2203
Lighting, Imaging, Real-time systems, Mathematical models, Robustness, Convolutional neural networks, Noise measurement, BibRef

Marco, J.[Julio], Jarabo, A.[Adrian], Nam, J.H.[Ji Hyun], Liu, X.C.[Xiao-Chun], Cosculluela, M.Á.[Miguel Ángel], Velten, A.[Andreas], Gutierrez, D.[Diego],
Virtual light transport matrices for non-line-of-sight imaging,
ICCV21(2420-2429)
IEEE DOI 2203
Couplings, Surface reconstruction, Instruments, Lighting, Imaging, Mathematical models, Topology, Computational photography, BibRef

Saunders, C.[Charles], Krska, W.[William], Tachella, J.[Julián], Seidel, S.W.[Sheila W.], Rapp, J.[Joshua], Murray-Bruce, J.[John], Altmann, Y.[Yoann], McLaughlin, S.[Stephen], Goyal, V.K.[Vivek K.],
Edge-Resolved Transient Imaging: Performance Analyses, Optimizations, and Simulations,
ICIP21(2858-2862)
IEEE DOI 2201
Non-line-of-sight imaging that combines the use of direct time of flight for measuring distances with the azimuthal angular resolution afforded by a vertical edge occluder. Reflectivity, Image edge detection, Lighting, Imaging, Position measurement, Time measurement, Performance analysis, Skellam distribution BibRef

Tanaka, K.[Kenichiro], Mukaigawa, Y.[Yasuhiro], Kadambi, A.[Achuta],
Polarized Non-Line-of-Sight Imaging,
CVPR20(2133-2142)
IEEE DOI 2008
Nonlinear optics, Cameras, Liquid crystal displays, Rough surfaces, Surface roughness, Lighting BibRef

Scheiner, N., Kraus, F., Wei, F., Phan, B., Mannan, F., Appenrodt, N., Ritter, W., Dickmann, J., Dietmayer, K., Sick, B., Heide, F.,
Seeing Around Street Corners: Non-Line-of-Sight Detection and Tracking In-the-Wild Using Doppler Radar,
CVPR20(2065-2074)
IEEE DOI 2008
Nonlinear optics, Radar tracking, Doppler radar, Relays, Imaging, Doppler effect BibRef

Liu, Y., Lai, W., Yang, M., Chuang, Y., Huang, J.,
Learning to See Through Obstructions,
CVPR20(14203-14212)
IEEE DOI 2008
Image reconstruction, Reflection, Feature extraction, Optical imaging, Learning systems, Cameras BibRef

Li, T.H.[Tian-Hong], Fan, L.J.[Li-Jie], Zhao, M.M.[Ming-Min], Liu, Y.C.[Ying-Cheng], Katabi, D.[Dina],
Making the Invisible Visible: Action Recognition Through Walls and Occlusions,
ICCV19(872-881)
IEEE DOI 2004
radio frequency (RF) signals as input. feature extraction, image motion analysis, image representation, learning (artificial intelligence), Neural networks BibRef

Chen, W.Z.[Wen-Zheng], Daneau, S.[Simon], Mannan, F.[Fahim], Heide, F.[Felix],
Steady-State Non-Line-Of-Sight Imaging,
CVPR19(6783-6792).
IEEE DOI 2002
BibRef

Xin, S.[Shumian], Nousias, S.[Sotiris], Kutulakos, K.N.[Kiriakos N.], Sankaranarayanan, A.C.[Aswin C.], Narasimhan, S.G.[Srinivasa G.], Gkioulekas, I.[Ioannis],
A Theory of Fermat Paths for Non-Line-Of-Sight Shape Reconstruction,
CVPR19(6793-6802).
IEEE DOI 2002
Award, CVPR. BibRef

Yedidia, A.B.[Adam B.], Baradad, M.[Manel], Thrampoulidis, C.[Christos], Freeman, W.T.[William T.], Wornell, G.W.[Gregory W.],
Using Unknown Occluders to Recover Hidden Scenes,
CVPR19(12223-12231).
IEEE DOI 2002
BibRef

Bouman, K.L.[Katherine L.], Ye, V.[Vickie], Yedidia, A.B.[Adam B.], Durand, F.[Frédo], Wornell, G.W.[Gregory W.], Torralba, A.B.[Antonio B.], Freeman, W.T.[William T.],
Turning Corners into Cameras: Principles and Methods,
ICCV17(2289-2297)
IEEE DOI 1802
Use the subtle spatio-temporal radiance variations that arise on the ground at the base of a wall's edge. Cameras, Image color analysis, Image edge detection, Lighting, Observers, Standards, Trajectory BibRef

Wang, T.[Tao], Hammoud, R.[Riad], Zhu, Z.G.[Zhi-Gang],
Ground-Based Activity Recognition at Distance and behind Wall,
PBVS14(231-236)
IEEE DOI 1409
activity recognition; audio-video; long range sensing BibRef

Mahfouz, M., Fathy, A., Yang, Y.Q.[Yun-Qiang], Ali, E.E., Badawi, A.,
See-through-wall imaging using ultra wideband pulse systems,
AIPR05(48-53).
IEEE DOI 0510
BibRef

Borek, S.E.,
An overview of through the wall surveillance for homeland security,
AIPR05(42-47).
IEEE DOI 0510
BibRef

Hunt, A.R.,
Image formation through walls using a distributed radar sensor array,
AIPR03(232-237).
IEEE DOI 0310
BibRef

Marble, J.A., Hero, A.O.,
Phase Distortion Correction for See-Through-The-Wall Imaging Radar,
ICIP06(2333-2336).
IEEE DOI 0610
BibRef

Chapter on Cartography, Aerial Images, Buildings, Roads, Terrain, Forests, Trees, ATR continues in
LIDAR, LADAR -- Range data .


Last update:Mar 16, 2024 at 20:36:19