4.12.2.9 Automotive Radar, Automotive MIMO Radars, Analysis, Use

Chapter Contents (Back)
Automotive Radar. Vehicle Radar.

Tsang, S.H., Hall, P.S., Hoare, E.G., Clarke, N.J.,
Advance Path Measurement for Automotive Radar Applications,
ITS(7), No. 3, September 2006, pp. 273-281.
IEEE DOI 0609
BibRef

Viikari, V.V., Varpula, T., Kantanen, M.,
Road-Condition Recognition Using 24-GHz Automotive Radar,
ITS(10), No. 4, December 2009, pp. 639-648.
IEEE DOI 0912
BibRef

Belyaev, E., Molchanov, P., Vinel, A., Koucheryavy, Y.,
The Use of Automotive Radars in Video-Based Overtaking Assistance Applications,
ITS(14), No. 3, 2013, pp. 1035-1042.
IEEE DOI 1309
Automotive radar BibRef

Askeland, S.A., Ekman, T.,
Tracking With a High-Resolution 2D Spectral Estimation Based Automotive Radar,
ITS(16), No. 5, October 2015, pp. 2418-2423.
IEEE DOI 1511
estimation theory BibRef

Eltrass, A.[Ahmed], Khalil, M.[Mohammed],
Automotive radar system for multiple-vehicle detection and tracking in urban environments,
IET-ITS(12), No. 8, October 2018, pp. 783-792.
DOI Link 1809
BibRef

Alaqeel, A.A., Ibrahim, A.A., Nashashibi, A.Y., Shaman, H.N., Sarabandi, K.,
Experimental Characterization of Multi-Polarization Radar Backscatter Response of Vehicles at J-Band,
ITS(20), No. 9, September 2019, pp. 3337-3350.
IEEE DOI 1909
Radar antennas, Radar imaging, Radar scattering, Radar cross-sections, Backscatter, Automotive radar, vehicular sensors BibRef

Alland, S., Stark, W., Ali, M., Hegde, M.,
Interference in Automotive Radar Systems: Characteristics, mitigation techniques, and current and future research,
SPMag(36), No. 5, September 2019, pp. 45-59.
IEEE DOI 1909
Radar antennas, Interference, Bandwidth, Sensors, Radar imaging, Radar detection BibRef

Hakobyan, G., Yang, B.,
High-Performance Automotive Radar: A review of signal processing algorithms and modulation schemes,
SPMag(36), No. 5, September 2019, pp. 32-44.
IEEE DOI 1909
Radar, OFDM, Radar signal processing, Automotive engineering, Chirp, Radar antennas, Modulation BibRef

Bilik, I., Longman, O., Villeval, S., Tabrikian, J.,
The Rise of Radar for Autonomous Vehicles: Signal processing solutions and future research directions,
SPMag(36), No. 5, September 2019, pp. 20-31.
IEEE DOI 1909
Automotive engineering, Radar cross-sections, Radar antennas, Sensors, Radar signal processing, Autonomous vehicles BibRef

Engels, F., Heidenreich, P., Zoubir, A.M., Jondral, F.K., Wintermantel, M.,
Advances in Automotive Radar: A framework on computationally efficient high-resolution frequency estimation,
SPMag(34), No. 2, March 2017, pp. 36-46.
IEEE DOI 1703
Automotive engineering BibRef

Patole, S.M., Torlak, M., Wang, D., Ali, M.,
Automotive Radars: A review of signal processing techniques,
SPMag(34), No. 2, March 2017, pp. 22-35.
IEEE DOI 1703
Automotive engineering BibRef

Al-Hourani, A., Evans, R.J., Kandeepan, S., Moran, B., Eltom, H.,
Stochastic Geometry Methods for Modeling Automotive Radar Interference,
ITS(19), No. 2, February 2018, pp. 333-344.
IEEE DOI 1802
Automotive engineering, Geometry, Interference, Radar, Roads, Stochastic processes, Vehicles, Automotive radars, stochastic geometry BibRef

Shishanov, S., Bystrov, A., Hoare, E.G., Stove, A., Gashinova, M., Cherniakov, M., Tran, T., Clarke, N.,
Height-Finding for Automotive THz Radars,
ITS(20), No. 3, March 2019, pp. 1170-1180.
IEEE DOI 1903
Radar, Position measurement, Transceivers, Coordinate measuring machines, Signal resolution, Sensor arrays, radar measurements BibRef

Ciattaglia, G.[Gianluca], de Santis, A.[Adelmo], Disha, D.[Deivis], Spinsante, S.[Susanna], Castellini, P.[Paolo], Gambi, E.[Ennio],
Performance Evaluation of Vibrational Measurements through mmWave Automotive Radars,
RS(13), No. 1, 2021, pp. xx-yy.
DOI Link 2101
BibRef

Wang, J.P.[Jian-Ping],
CFAR-Based Interference Mitigation for FMCW Automotive Radar Systems,
ITS(23), No. 8, August 2022, pp. 12229-12238.
IEEE DOI 2208
Radar, Interference, Time-frequency analysis, Automotive engineering, Radar detection, Detectors, time-frequency spectrum BibRef

Zhang, X.D.[Xu-Dong], Wang, F.Z.[Fang-Zhou], Li, H.B.[Hong-Bin],
An Efficient Method for Cooperative Multi-Target Localization in Automotive Radar,
SPLetters(29), 2022, pp. 16-20.
IEEE DOI 2202
Sensors, Delays, Location awareness, Radar, Receiving antennas, Automotive engineering, Radar signal processing, 2-D FFT BibRef

Li, Y.W.[Yao-Wen], Li, G.[Gang], Liu, Y.[Yu], Zhang, X.P.[Xiao-Ping], He, Y.[You],
A Hybrid SVSF Algorithm for Automotive Radar Tracking,
ITS(23), No. 9, September 2022, pp. 15028-15042.
IEEE DOI 2209
Uncertainty, Radar tracking, Measurement uncertainty, Smoothing methods, Switches, Noise measurement, Gain measurement, radar target tracking BibRef

Manzoni, M.[Marco], Tebaldini, S.[Stefano], Monti-Guarnieri, A.V.[Andrea Virgilio], Prati, C.M.[Claudio Maria], Russo, I.[Ivan],
A Comparison of Processing Schemes for Automotive MIMO SAR Imaging,
RS(14), No. 19, 2022, pp. xx-yy.
DOI Link 2210
BibRef

Xu, Z.H.[Zhi-Huo],
Bi-Level l1 Optimization-Based Interference Reduction for Millimeter Wave Radars,
ITS(24), No. 1, January 2023, pp. 728-738.
IEEE DOI 2301
Interference, Radar, Optimization, Millimeter wave radar, Discrete Fourier transforms, Automotive engineering, iterated soft-thresholding algorithm BibRef

Polisano, M.G.[Mattia Giovanni], Manzoni, M.[Marco], Tebaldini, S.[Stefano], Monti-Guarnieri, A.[Andrea], Prati, C.M.[Claudio Maria], Russo, I.[Ivan],
Very High Resolution Automotive SAR Imaging from Burst Data,
RS(15), No. 3, 2023, pp. xx-yy.
DOI Link 2302
BibRef

Guo, P.[Ping], Wu, F.[Fuen], Tang, S.Y.[Shi-Yang], Jiang, C.H.[Cheng-Hao], Liu, C.J.[Chang-Jie],
Implementation Method of Automotive Video SAR (ViSAR) Based on Sub-Aperture Spectrum Fusion,
RS(15), No. 2, 2023, pp. xx-yy.
DOI Link 2301
BibRef

Manzoni, M.[Marco], Tagliaferri, D.[Dario], Rizzi, M.[Marco], Tebaldini, S.[Stefano], Guarnieri, A.V.M.[Andrea Virgilio Monti], Prati, C.M.[Claudio Maria], Nicoli, M.[Monica], Russo, I.[Ivan], Duque, S.[Sergi], Mazzucco, C.[Christian], Spagnolini, U.[Umberto],
Motion Estimation and Compensation in Automotive MIMO SAR,
ITS(24), No. 2, February 2023, pp. 1756-1772.
IEEE DOI 2302
Synthetic aperture radar, Radar, Radar imaging, Radar polarimetry, Radar antennas, Automotive engineering, Navigation, SAR, automotive, motion compensation BibRef

He, D.P.[Dan-Ping], Guan, K.[Ke], Ai, B.[Bo], Zhong, Z.[Zhangdui], Kim, J.[Junhyeong], Chung, H.[Heesang], Hrovat, A.[Andrej],
Channel Measurement and Ray-Tracing Simulation for 77 GHz Automotive Radar,
ITS(24), No. 7, July 2023, pp. 7746-7756.
IEEE DOI 2307
Radar, Radar cross-sections, Sensors, Millimeter wave communication, Automotive engineering, ray-tracing BibRef

Yao, Y.[Yu], Shu, F.[Feng], Cheng, X.[Xu], Liu, H.T.[Hai-Tao], Miao, P.[Pu], Wu, L.[Lenan],
Automotive Radar Optimization Design in a Spectrally Crowded V2I Communication Environment,
ITS(24), No. 8, August 2023, pp. 8253-8263.
IEEE DOI 2308
Radar, Interference, Millimeter wave communication, Optimization, MIMO communication, Training, Radar antennas, alternating direction method of multipliers (ADMM) BibRef

Mishra, A.K.[Asish Kumar], Tyagi, K.[Kanishka], Mishra, D.[Deepak],
Utilizing Super-Resolution for Enhanced Automotive Radar Object Detection,
ICIP23(3563-3567)
IEEE DOI Code:
WWW Link. 2312
BibRef

Jiang, M.J.[Meng-Jie], Xu, G.[Gang], Pei, H.[Hao], Feng, Z.Y.[Ze-Yun], Ma, S.[Shuai], Zhang, H.[Hui], Hong, W.[Wei],
4D High-Resolution Imagery of Point Clouds for Automotive mmWave Radar,
ITS(25), No. 1, January 2024, pp. 998-1012.
IEEE DOI 2402
Estimation, Direction-of-arrival estimation, Radar imaging, MIMO communication, Millimeter wave radar, Doppler effect, complex-valued deep convolutional network (CV-DCN) BibRef

Gao, P.[Pengen], Zhang, S.K.[Sheng-Kai], Wang, W.[Wei], Lu, C.X.X.[Chris Xiao-Xuan],
Robust Metric Localization in Autonomous Driving via Doppler Compensation With Single-Chip Radar,
ITS(25), No. 1, January 2024, pp. 491-502.
IEEE DOI 2402
Radar, Doppler radar, Location awareness, Measurement, Doppler effect, Spaceborne radar, Radar measurements, Doppler effect BibRef

Guo, Y.[Yuehao], Wang, X.[Xianpeng], Lan, X.[Xiang], Su, T.[Ting],
Traffic Target Location Estimation Based on Tensor Decomposition in Intelligent Transportation System,
ITS(25), No. 1, January 2024, pp. 816-828.
IEEE DOI 2402
Estimation, Colored noise, Tensors, Radar, MIMO radar, Sensors, Arrays, Intelligent transportation system, FDA-MIMO radar, tensor decomposition BibRef

Zhao, P.[Pengchao], Li, N.[Na], Zhang, Y.Q.[Yi-Qun], Hu, N.[Naigang],
An SIW Quasi-Pyramid Horn Antenna Based on Patch Coupling Feed for Automotive Radar Sensors,
RS(16), No. 4, 2024, pp. 692.
DOI Link 2402
BibRef

Zabalegui, P.[Paul], de Miguel, G.[Gorka], Fernández-Berrueta, N.[Nerea], Aizpuru, J.[Joanes], Mendizabal, J.[Jaizki], Adín, I.[Iñigo],
On the Use of Ultra-WideBand-Based Augmentation for Precision Maneuvering,
RS(16), No. 5, 2024, pp. 911.
DOI Link 2403
BibRef

Wang, X.[Xiyu], He, D.P.[Dan-Ping], Guan, K.[Ke], Duan, H.Y.[Hong-Yu], Dou, J.[Jianwu], AbuAli, N.A.[Najah Abed], Zhong, Z.[Zhangdui],
Channel Measurement and Modeling for Millimeter-Wave Automotive Radar,
ITS(25), No. 3, March 2024, pp. 2933-2943.
IEEE DOI 2405
Radar, Millimeter wave communication, Computational modeling, Chirp, Automobiles, Millimeter wave measurements, Channel models, hybrid channel model BibRef


Haitman, Y.[Yuval], Bialer, O.[Oded],
BoostRad: Enhancing Object Detection by Boosting Radar Reflections,
WACV24(1627-1636)
IEEE DOI 2404
Training, Radar detection, Radar, Artificial neural networks, Object detection, Radar imaging, Boosting, Algorithms, Autonomous Driving BibRef

Zheng, K.[Ke], Li, S.G.[Shu-Guang], Qin, K.J.[Kong-Jian], Li, Z.[Zhenxu], Zhao, Y.[Yang], Peng, Z.[Zhinan], Cheng, H.[Hong],
Depth Estimation via Sparse Radar Prior and Driving Scene Semantics,
ACCV22(II:425-441).
Springer DOI 2307
BibRef

Benyahia, Z.[Zakaria], Hefnawi, M.[Mostafa], Aboulfatah, M.[Mohamed], Abdelmounim, E.[Elhassane], Gadi, T.[Taoufiq],
SqueezeNet-Based Range, Angle, and Doppler Estimation for Automotive MIMO Radar Systems,
ISCV22(1-5)
IEEE DOI 2208
Training, MIMO radar, Simulation, Estimation, Training data, Doppler radar, Doppler effect, MIMO radar, automotive radar, range-angle-Doppler estimation BibRef

Ouaknine, A.[Arthur], Newson, A.[Alasdair], Rebut, J.[Julien], Tupin, F.[Florence], Pérez, P.[Patrick],
CARRADA Dataset: Camera and Automotive Radar with Range- Angle- Doppler Annotations,
ICPR21(5068-5075)
IEEE DOI 2105
Visualization, Laser radar, Annotations, Radar, Sensor phenomena and characterization, Cameras, Time measurement BibRef

Ristea, N.C.[Nicolae-Catalin], Anghel, A.[Andrei], Ionescu, R.T.[Radu Tudor], Eldar, Y.C.[Yonina C.],
Automotive Radar Interference Mitigation with Unfolded Robust PCA based on Residual Overcomplete Auto-Encoder Blocks,
EVW21(3203-3208)
IEEE DOI 2109
Deep learning, Convolution, Roads, Radar detection, Radar, Interference, Real-time systems BibRef

Dong, X., Wang, P., Zhang, P., Liu, L.,
Probabilistic Oriented Object Detection in Automotive Radar,
PBVS20(458-467)
IEEE DOI 2008
Radar imaging, Laser radar, Object detection, Radar detection, Doppler radar, Autonomous vehicles BibRef

Major, B., Fontijne, D., Ansari, A., Sukhavasi, R.T., Gowaikar, R., Hamilton, M., Lee, S., Grzechnik, S., Subramanian, S.,
Vehicle Detection with Automotive Radar Using Deep Learning on Range-Azimuth-Doppler Tensors,
CVRSUAD19(924-932)
IEEE DOI 2004
driver information systems, learning (artificial intelligence), object detection, radar computing, radar signal processing, FMCW radar 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

Tsang, S.H.[Shiu H.], Hoare, E.G.[Edward G.], Hall, P.S.[Peter S.],
Automotive Radar Image Processing to Predict Vehicle Trajectory,
ICIP99(III:867-870).
IEEE DOI BibRef 9900

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


Last update:May 6, 2024 at 15:50:14