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学术论文

和保铮院士合作撰写专著《雷达成像技术》、《雷达成像算法进展》

 

出版学术专著:

1. 《认知雷达导论》,国防工业出版署,2017.12;

2. 《雷达信号处理基础》第二版,电子工业出版社,2017.3;

3. 《雷达成像算法进展》,电子工业出版社,2014.11;

4. 《雷达信号处理基础》,电子工业出版社,2008;

5. 《雷达成像技术》,电子工业出版社,2005。

 

2020年发表,第一作者为学生的文章

  1. Fuyu Tao, Tong Wang, Jianxin Wu, and Xuefang Lin. A Novel KA-STAP Method Based on Mahalanobis Distance Metric Learning[J]. Digital Signal Processing, vol.97, 2020, pp.1-9. (2类贡献度)
  2. Yuyu Su, Tong Wang, and Xuefang Lin. Decoupled Narrowband Robust Adaptive Beamforming Based on the ADMM in a Noisy Channel[J]. IET Radar, Sonar & Navigation, vol.14, no.8, 2020, pp.637-642. (2类贡献度)
  3. Yuyu Su, Tong Wang, Fuyu Tao, and Zhongyue Li. A Grid-Less Total Variation Minimization-Based Space-Time Adaptive Processing for Airborne Radar[J]. IEEE Access, vol.8, 2020, pp.29334-29343. (3类贡献度)
  4. Zhongyue Li and Tong Wang. ADMM-Based Low-Complexity Off-Grid Space-Time Adaptive Processing Methods[J]. IEEE Access, vol.8, 2020, pp.206646-206658. (3类贡献度)
  5. 刘晓瑜, 吴建新, 王彤, 陈金铭. 基于多特显点的无人机分布式相参雷达相位同步误差估计方法[J]. 系统工程与电子技术, vol.42, no.4, 2020, pp.781-791. (3类贡献度)
  6. 刘晓瑜, 王彤, 吴建新, 陈金铭. 基于MIMO直达波的无人机分布式相参雷达相位同步方法[J]. 系统工程与电子技术, vol.42, no.5, 2020, pp.1014-1025. (3类贡献度)
  7. 肖浩, 王彤, 文才. 苏昱煜. 一种迭代可分离的机载面阵雷达杂波抑制方法[J]. 系统工程与电子技术, vol.42, no.11, pp.2461-2470. (3类贡献度)

 

2021年发表,第一作者为学生的文章

  1. Yongkang Li, Tong Wang, Tianyu Huo, and Laisen Nie. A Study on the Range Equation Modeling for Multichannel Medium-Earth-Orbit SAR-GMTI Systems[J]. Remote Sensing, vol.13, no.14, 2022, pp.1-19. (1类贡献度)
  2. Hao Xiao, Tong Wang, Cai Wen, and Bing Ren. A Generalized Eigenvalue Reweighting Covariance Matrix Estimation Algorithm for Airborne STAP Radar in Complex Environment[J]. IET Radar, Sonar & Navigation, vol.15, no.10, 2021, pp.1309-1324. (2类贡献度)
  3. Hao Xiao, Tong Wang, Shuguang Zhang, and Cai Wen. A Robust Refined Training Sample Reweighting Space–Time Adaptive Processing Method for Airborne Radar in Heterogeneous Environment[J]. IET Radar, Sonar & Navigation, vol.15, no.3, 2021, pp.310-322. (2类贡献度)
  4. Zhongyue Li, Tong Wang, and Yuyu Su. A Fast and Gridless STAP Algorithm Based on Mixed-Norm Minimisation and the Alternating Direction Method of Multipliers[J]. IET Radar, Sonar & Navigation, vol.15, no.10, 2021, pp. 1340-1352. (2类贡献度)
  5. Kun Liu, Tong Wang, Jianxin Wu, and Jinming Chen. A Two-Stage STAP Method Based on Fine Doppler Localization and Sparse Bayesian Learning in the Presence of Arbitrary Array Errors[J]. Sensors, vol.22, no.1, 2021, pp.1-25. (3类贡献度)
  6. 肖浩, 王彤, 文才, 刘程. 一种稳健的机载面阵雷达非均匀杂波抑制方法[J]. 电子与信息学报, vol.43, no.1, 2021, pp.138-144. (3类贡献度)
  7. 陈金铭, 王彤, 吴建新, 刘晓瑜. 基于特显点的机载分布式相参雷达同步误差校正方法[J]. 电子与信息学报, vol.43, no.2, 2021, pp.356-363. (3类贡献度)

 

2022年发表,第一作者为学生的文章

  1. Jinming Chen, Tong Wang, Xiaoyu Liu, and Jianxin Wu. Time and Phase Synchronization Using Clutter Observations in Airborne Distributed Coherent Aperture Radars[J]. Chinese Journal of Aeronautics, vol.35, no.3, 2022, pp.432-449. (1类贡献度)
  2. Xiaoyu Liu, Tong Wang, Jinming Chen, and Jianxin Wu. Efficient Configuration Calibration in Airborne Distributed Radar Systems[J]. IEEE Transactions on Aerospace and Electronic Systems, vol.58, no.3, 2022, pp.1799-1817. (1类贡献度)
  3. Xiaoyu Liu, Tong Wang, and Jinming Chen. Identifiability Analysis for Configuration Calibration in Distributed Sensor Networks[J]. Remote Sensing, vol.14, no.16, 2022, pp.1-24. (1类贡献度)
  4. Yongkang Li, Tianyu Huo, Chenxi Yang, Tong Wang, Juan Wang, and Beiyu Li. An Efficient Ground Moving Target Imaging Method for Airborne Circular Stripmap SAR[J]. Remote Sensing, vol.14, no.1, 2022, pp.1-21. (1类贡献度)
  5. Degen Wang, Tong Wang, Weichen Cui, and Cheng Liu. Adaptive Support-Driven Sparse Recovery STAP Method with Subspace Penalty[J]. Remote Sensing, vol.14, no.18, 2022, pp.1-19. (1类贡献度)
  6. Weichen Cui, Tong Wang, Degen Wang, and Kun Liu. An Efficient Sparse Bayesian Learning STAP Algorithm with Adaptive Laplace Prior[J]. Remote Sensing, vol.14, no.15, 2022, pp. 1-20. (1类贡献度)
  7. Kun Liu, Tong Wang, Jianxin Wu, Cheng Liu, and Weichen Cui. On the Efficient Implementation of Sparse Bayesian Learning-Based STAP Algorithms[J]. Remote Sensing, vol.14, no.16, 2022, pp.1-25. (1类贡献度)
  8. Cheng Liu, Tong Wang, Kun Liu, and Xinying Zhang. A Novel Sparse Bayesian Space-Time Adaptive Processing Algorithm to Mitigate Off-Grid Effects[J]. Remote Sensing, vol.14, no.16, 2022, pp.1-18. (1类贡献度)
  9. Jinming Chen, Tong Wang, Xiaoyu Liu, and Jianxin Wu. Identifiability Analysis of Positioning and Synchronization Errors in Airborne Distributed Coherence Aperture Radars[J]. IEEE Sensors Journal, vol.22, no.6, 2022, pp.5978-5993. (2类贡献度)
  10. Xiaoyu Liu, Tong Wang, Jinming Chen, and Jianxin Wu. Joint Source Localization and Sensor Position Refinement with Extra Inter-Sensor Information[J]. IEEE Signal Processing Letters, vol.29, 2022, pp.1107-1111. (2类贡献度)
  11. Xiaoyu Liu, Tong Wang, Jinming Chen, and Jianxin Wu. Efficient Configuration Calibration Using Ground Auxiliary Receivers at Inaccurate Locations[J]. Digital Signal Processing, vol.129, 2022, pp.1-24. (2类贡献度)
  12. Cheng Liu, Tong Wang, Shuguang Zhang, and Bing Ren. A Clutter Suppression Algorithm via Weighted I(2) Penalty for Airborne Radar[J]. IEEE Signal Processing Letters, vol.29, 2022, pp. 1522-1525. (2类贡献度)
  13. Degen Wang, Tong Wang, and Weichen Cui. A Fast Sparse Bayesian Learning Method with Adaptive Laplace Prior for Space-Time Adaptive Processing[J]. IET Radar, Sonar & Navigation, 2022, pp. 1-13. (2类贡献度)
  14. Shuguang Zhang, Tong Wang, Hao Xiao, and Cheng Liu. A Robust Sparsity-based Tri-Iterative Space-Time Adaptive Processing Method for Airborne Radar[J]. IET Radar, Sonar & Navigation, vol.16, no.10, 2022, pp.1727-1735. (2类贡献度)
  15. Cheng Liu, Tong Wang, Shuguang Zhang, and Bing Ren. Clutter Suppression based on Iterative Reweighted Methods with Multiple Measurement Vectors for Airborne Radar[J]. IET Radar, Sonar & Navigation, vol.16, no.9, 2022, pp.1446-1459. (2类贡献度)
  16. Cheng Liu, Tong Wang, Shuguang Zhang, and Bing Ren. A Fast Space-Time Adaptive Processing Algorithm Based on Sparse Bayesian Learning for Airborne Radar[J]. Sensors, vol.22, no.7, 2022, pp. 1-21. (3类贡献度)
  17. Bing Ren, and Tong Wang. Space-Time Adaptive Processing Based on Modified Sparse Learning via Iterative Minimization for Conformal Array Radar[J]. Sensors, vol.22, no.18, 2022, pp.1-17. (3类贡献度)
  18. Shuguang Zhang, TongWang, Cheng Liu, and Degen Wang. A Space-Time Adaptive Processing Method Based on Sparse Bayesian Learning for Maneuvering Airborne Radar[J]. Sensors, vol.22, no.15, 2022, pp.1-12. (3类贡献度)

 

 

 

2018年之前在国内外刊物和会议发表论文91篇,申请国防专利和民用专利30余项。

[1]Tong Wang, Zheng Bao. Improving the Image Quality of Spaceborne Multiple-Aperture SAR Under Minimization of Sidelobe Clutter and Noise [J], IEEE GEOSCIENCE AND REMOTE SENSING LETTERS, Vol.3, Iss.3, July. 2006, Pages: 297-301, Total Times Cited: 13.

[2]Tong Wang, Zheng Bao Zhen-hua Zhang and Jin-shan Ding. Improving Coherence of Complex Image Pairs Obtained by Along-Track Bistatic SARs Using Range–Azimuth Prefiltering [J], IEEE GEOSCIENCE AND REMOTE SENSING, Vol.46, Iss.1, Jan. 2008, Pages: 3-13, Total Times Cited: 18.

[3]Zhenhua Zhang, Tong Wang, Jinshan Ding and Zheng Bao. A New Approach to Improve Coherence in SAR/GMTI Processing of Distributed Microsatellites Systems[C], IEEE CONFERENCE PUBLICATIONS (2006 CIE International Conference on Radar), Oct. 2006, Pages: 1-4,Total Times Cited: 3.

[4]Lei Yang, Tong Wang, Mengdao Xing and Zheng Bao. A New Channel Equalization Method for Airborne Multi-channel SAR-GMTI system [C], IEEE CONFERENCE PUBLICATIONS (APSAR 2007), Nov. 2007, Pages: 271-274, Total Times Cited: 4.

[5]Lifeng Zhang, Tong Wang, Mengdao Xing and Zheng Bao. A Novel Approach to Three-Channel SAR-GMTI Channel Equalization and moving target detection and location[C], IEEE CONFERENCE PUBLICATIONS (APSAR 2007), Nov. 2007, Pages: 284-288, Total Times Cited: 1.

[6]Lei Yang, Tong Wang, and Zheng Bao. Ground Moving Target Indication Using an InSAR System With a Hybrid Baseline [J], IEEE GEOSCIENCE AND REMOTE SENSING LETTERS, Vol.5, Iss.3, Jul. 2008, Pages: 373-377, Total Times Cited: 15.

[7]Baochang Liu, Tong Wang, and Zheng Bao. Doppler Ambiguity Resolving in Compressed Azimuth Time and Range Frequency Domain [J], IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING, Vol. 46, Iss.11, Nov. 2008, Pages: 3444-3458, Total Times Cited: 14.

[8]Jianxin Wu, Tong Wang and Zheng Bao. DOA Estimation for ULA by Spectral Capon Rooting Method [J], ELECTRONICS LETTERS, Vol.45, Iss.1. Jan. 2009, Pages: 84-85. Total Times Cited: 7.

[9]Xiangdong Meng, Tong Wang, Jianxin Wu, and Zheng Bao. Short-Range Clutter Suppression for Airborne Radar by Utilizing preflitering in Elevation [J], IEEE GEOSCIENCE AND REMOTE SENSING LETTERS, Vol. 6, Iss.2, Apr. 2009, Pages: 268-272, Total Times Cited: 22.

[10]Baochang Liu, Tong Wang, Qisong Wu, and Zheng Bao. Bistatic SAR Data Focusing Using an Omega-K Algorithm Based on Method of Series Reversion [J], IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING, Vol. 47, Iss.8, Aug. 2009, Pages: 2899-2912, Total Times Cited: 55.

[11]Jianxin Wu, Tong Wang and Zheng Bao. Fast implementation of optimal target radial velocity estimation for multi-channel SAR-GMTI [J], ELECTRONICS LETTERS, Vol. 45, Iss.19. Sep. 2009, Pages: 1000-1002. Total Times Cited: 4.

[12]Xiangdong Meng, Tong Wang, Jianxin Wu, and Zheng Bao. Bistatic Clutter Analysis and Range Ambiguity Resolving for Space Time Adaptive Processing [J], IET RADAR SONAR AND NAVIGATION, Vol.3, Iss.5, Oct. 2009, Pages: 502-511, Total Times Cited: 6.

[13]Jianxin Wu, Tong Wang, Xiangdong Meng and Zheng Bao. Clutter suppression for airborne non-sidelooking radar using ERCB-STAP algorithm [J], IET RADAR SONAR AND NAVIGATION, Vol.4, Iss.4, Aug. 2010, Pages: 497-506. Total Times Cited: 19.

[14]Baochang Liu, Tong Wang, and Zheng Bao. An Analytical Method of Updating the Range Derivatives and a Simple Image Registration Method for the MSR-Based Range Doppler Algorithm [J], IEEE GEOSCIENCE AND REMOTE SENSING LETTERS, Vol.7, Iss.4, Oct. 2010, Pages: 831-835, Total Times Cited: 3.

[15]Jianxin Wu, Tong Wang and Zheng Bao. Fast Realization of Maximum Likelihood Angle Estimation With Small Adaptive Uniform Linear Array [J], IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION, Vol.58, Iss.12, Dec. 2010, Pages: 3951-3960, Total Times Cited: 9.

[16]Jianxin Wu, Tong Wang. Fast Computation of Real Polynomial Coefficients for Spectral Capon/MUSIC Rooting Algorithm[C], IEEE CONFERENCE PUBLICATIONS (2011 CIE International Conference on Radar), Oct. 2011, Pages: 327-330, Total Times Cited: 1.

[17]Jianxin Wu, Tong Wang and Zheng Bao. FFT implementation of Doppler dependent pre-Doppler STAP [J], SIGNAL PROCESSING, Vol.92, Iss.1, Jan. 2012, Pages: 281-287. Total Times Cited: 3.

[18]Jianxin Wu, Tong Wang, Lifeng Zhang and Zheng Bao. Range-Dependent Clutter Suppression for Airborne Sidelooking Radar using MIMO Technique [J], IEEE TRANSACTIONS ON AEROSPACE AND ELECTRONIC SYSTEMS, Vol.48, Iss.4, Oct. 2012, Pages: 3647-3654, Total Times Cited: 11.

[19]Jianxin Wu, Tong Wang and Zheng Bao. Angle Estimation for Adaptive Linear Array using PCA-ML Estimator [J], IEEE TRANSACTIONS ON AEROSPACE AND ELECTRONIC SYSTEMS, Vol.49, Iss.1, Jan. 2013, Pages: 670-677, Total Times Cited: 3.

[20]Jianxin Wu, Tong Wang and Zheng Bao. Fast Realization of Maximum Likelihood Angle Estimation in Jamming: Further Results [J], IEEE TRANSACTIONS ON AEROSPACE AND ELECTRONIC SYSTEMS, Vol.50, Iss.2, Apr. 2014, Pages: 1556-1562, Total Times Cited: 2.

[21]Baochang Liu, Yongkang Li, Tong Wang, Fengyang Shen and Zheng Bao. An Analytical Formula Approximating the Multilook Interferometric-Phase Variance for InSAR [J], IEEE GEOSCIENCE AND REMOTE SENSING LETTERS, Vol.11, Iss.4, Apr. 2014, Pages: 878-882, Total Times Cited: 3.

[22]Ruixian Hu, Baochang Liu, Tong wang, Dongdong Liu, and Zheng Bao. A Knowledge-Based Target Relocation Method for Wide-Area GMTI Mode [J], IEEE GEOSCIENCE AND REMOTE SENSING LETTERS, Vol.11, Iss.4, Apr. 2014, Pages: 748-752, Total Times Cited: 5.

[23]ZhaoYan Chen, Tong Wang and Nan Ma. Accurate baseline estimation for synthetic aperture radar-ground moving target indication systems based on co-registration and median filtering [J], IET RADAR SONAR AND NAVIGATION. Vol.8, Iss.6, Jul.2014, Pages: 607-615, Total Times Cited: 3.

[24]Baoquan Dai, Tong Wang, Tao Bai, Jianxin Wu and Zheng Bao. Training data selection method for adaptive beamforming [J], ELECTRONICS LETTERS, Vol. 50, Iss.17, Aug. 2014, Pages:1242-1244, Total Times Cited: 1.

[25]Yongkang Li, Tong Wang. Efficient imaging algorithm for airborne CSSAR/GMTI systems [J], ELECTRONICS LETTERS, Vol. 50, Iss.19, Sep. 2014, Pages: 1390-1391, Total Times Cited: 2.

[26]Baochang Liu, Tong Wang, Yongkang Li, Fengyang Shen, and Zheng Bao. Effects of Doppler Aliasing on Baseline Estimation in Multichannel SAR-GMTI and Solutions to Address These Effects [J], IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING, Vol.52, Iss.10, Oct. 2014, Pages: 6471-6487, Total Times Cited: 10.

[27]Yongkang Li, Tong Wang. Ground moving target imaging algorithm for single channel airborne CSSAR [J], ELECTRONICS LETTERS, Vol. 50, Iss.24, Nov. 2014, Pages: 1872-1874, Total Times Cited: 2.

[28]Baoquan Dai, Tong Wang, Jianxin Wu, and Zheng Bao. Clutter suppression approach for non-sidelooking airborne radar with medium pulse repetition frequency [J], IET RADAR SONAR AND NAVIGATION, Vol.8, Iss.9, Dec. 2014, Pages: 999-1007, Total Times Cited: 2.

[29]ZhaoYan Chen, Tong Wang. Unambiguous across-track velocity estimation of moving targets for multichannel synthetic aperture radar-ground moving target indication systems [J], IET SIGNAL PROCESSING, Vol.8, Iss.9, Dec. 2014, Pages: 950-957, Total Times Cited: 1.

[30]ZhaoYan Chen, Tong Wang. Two-stage channel calibration technique for multichannel synthetic aperture radar-ground moving target indication systems [J], IET RADAR SONAR AND NAVIGATION, Vol.8, Iss.9, Dec.2014, Pages: 1116-1126, Total Times Cited: 3.

[31]Jianxin Wu, Tong Wang and Zheng Bao. Fast realization of root MUSIC using multi-taper real polynomial rooting [J], SIGNAL PROCESSING, Vol.106, Jan. 2015, Pages: 55-61. Total Times Cited: 0.

[32]Baoquan Dai, Tong Wang, Jianxin Wu, and Zheng Bao. Adaptively iterative weighting covariance matrix estimation for airborne radar clutter suppression [J], SIGNAL PROCESSING, Vol.106, Jan. 2015, Pages: 282-293. Total Times Cited: 4.

[33]Cai Wen, Tong Wang and Jianxin Wu. Short-range ground moving target indication in forward looking airborne radar based on elevation prefiltering [J], IET RADAR SONAR AND NAVIGATION, Vol.9, Iss.2, Feb. 2015, Pages: 191-198, Total Times Cited: 0.

[34]Cai Wen, Tong Wang and Jianxin Wu. Range-dependent clutter suppression approach for non-side-looking airborne radar based on orthogonal waveforms [J], IET RADAR SONAR AND NAVIGATION, Vol.9, Iss.2, Feb. 2015, Pages: 210-220, Total Times Cited: 6.

[35]Yongkang Li, Tong Wang, Baochang Liu and Ruixian Hu. High-Resolution SAR Imaging of Ground Moving Targets Based on the Equivalent Range Equation [J], IEEE GEOSCIENCE AND REMOTE SENSING LETTERS, Vol.12, Iss.2, Feb. 2015, Pages: 324-328, Total Times Cited: 11.

[36]Yifeng Wu, Tong Wang, Jianxin Wu and Jia Duan. Training Sample Selection for Space-Time Adaptive Processing in Hetergeneous Environments [J], IEEE GEOSCIENCE AND REMOTE SENSING LETTERS, Vol.12, Iss.4, Apr. 2015, Pages: 691-695, Total Times Cited: 11.

[37]Yifeng Wu, Tong Wang and Jianxin Wu. Robust training samples selection algorithm based on spectral similarity for space-time adaptive processing in heterogeneous interference environments [J], IET RADAR SONAR AND NAVIGATION, Vol.9, Iss.7, Aug. 2015, Pages: 778-782, Total Times Cited: 8.

[38]Yalong Tong, Tong Wang and Jianxin Wu. Improving EFA-STAP Performance Using Persymmetric Covariance Matrix Estimation [J], IEEE Transactions on Aerospace and Electronic Systems, Vol.51, Iss.2, Apr. 2015, Pages: 924-936, Total Times Cited: 5.

[39]Yongkang Li, Tong Wang. Efficient imaging algorithm for spaceborne synthetic aperture radar/ground moving target indication systems [J], IET RADAR SONAR AND NAVIGATION, Vol.9, Iss.9, Dec. 2015, Pages: 1354-1359, Total Times Cited: 2.

[40]ZhaoYan Chen, Tong Wang and Nan Ma. Simple and robust baseline estimation method for multichannel SAR-GMTI systems [J], INTERNATIONAL JOURNAL OF ELECTRONICS, Vol. 103, Iss.7, Jul. 2016, Pages: 1127-1137, Total Times Cited: 2.

[41]Yongkang Li, Tong Wang. Detection of Moving Targets by Refocusing for Airborne CSSAR [J], IEEE JOURNAL OF SELECTED TOPICS IN APPLIED EARTH OBSERVATIONS AND REMOTE SENSING, Vol.9, Iss.7, Jul. 2016, Pages: 3026-3036, Total Times Cited: 1.

[42]Lei Jiang, Tong Wang. Robust non-homogeneity detector based on reweighted adaptive power residue [J], IET RADAR SONAR AND NAVIGATION, Vol.10, Iss.8, Oct. 2016, Pages: 1367-1374, Total Times Cited: 0.

[43]Yongkang Li, Tong Wang and Baochang Liu. Ground Moving Target Imaging and Motion Parameter Estimation With Airborne Dual-Channel CSSAR [J], IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING, Vol.55, Iss.9, Sep. 2017, Pages: 5242-5253, Total Times Cited: 1.

[44]Juan Wang, Tong Wang and Jianxin Wu. Improved target direction-of-arrival estimation using multiple adjacent beams for airborne phased array scanning radar[J], IET RADAR SONAR AND NAVIGATION, Vol.12, Iss.2, Feb. 2018, Pages: 239-243, Total Times Cited: 0.

[45]廖桂生,王彤.阵列信号部分自适应处理的一种迭代搜索算法[J].西安电子科技大学学报,1997(02):92-99.被引次数:1.

[46]廖桂生,王彤,保铮.基于和差波束的自适应干扰对消技术[J].西安电子科技大学学报,1997(S1):116-123. 被引次数:4.

[47]王彤,保铮,廖桂生.地面慢速目标检测的STAP方法[J].电子学报,2000(09):123-125. 被引次数:16.

[48]王彤,保铮,廖桂生.机载雷达自适应ST-MTI方法研究[J].西安电子科技大学学报,2000(05):537-541. 被引次数:4.

[49]王彤,保铮,廖桂生.机载火控雷达近距离地面慢速目标检测[J].电子学报,2001(06):721-725. 被引次数:32.

[50]王彤,保铮.空时二维自适应处理的目标污染样本挑选方法[J].电子学报,2001(S1):1840-1844. 被引次数:25.

[51]王彤,保铮,廖桂生.机载火控雷达慢速目标检测[J].电子与信息学报,2002(02):222-231. 被引次数:6.

[52]李真芳,保铮,王彤,邢孟道.分布式小卫星SAR宽域和高方位分辨率处理方法[J].雷达科学与技术,2003(04):193-196+209. 被引次数:2.

[53]李真芳,保铮,王彤,廖桂生.基于实测数据的地面慢速动目标检测[J].电子学报,2003(09):1437-1440. 被引次数:20.

[54]李真芳,邢孟道,王彤,保铮.分布式小卫星SAR实现全孔径分辨率的信号处理[J].电子学报,2003(12):1800-1803. 被引次数:54.

[55]王彤,保铮,廖桂生.分布式小卫星干涉高程测量[J].系统工程与电子技术,2004(07):859-862+895. 被引次数:18.

[56]李真芳,王彤,保铮,廖桂生.同时地形高程测量和地面运动目标检测的分布式InSAR最优编队构形[J].宇航学报,2004(06):642-648. 被引次数:20.

[57]李真芳,保铮,王彤.分布式小卫星SAR系统地面运动目标检测方法[J].电子学报,2005(09):1664-1666. 被引次数:33.

[58]邢孟道,李真芳,保铮,王彤.分布式小卫星雷达空时频成像方法研究[J].宇航学报,2005(S1):70-76+82. 被引次数:32.

[59]王彤,保铮,廖桂生.天基分布式雷达GMTI方法[J].电子学报,2006(03):399-403. 被引次数:32.

[60]吴建新,王彤.机载雷达主瓣杂波抑制的投影矩阵方法[J].现代雷达,2007(04):39-42. 被引次数:0.

[61]吴建新,王彤,保铮.存在强旁瓣目标的机载雷达地面运动目标检测[J].系统工程与电子技术,2007(05):713-715. 被引次数:1.

[62]钟素红,白海龙,王彤.一种SAR-GMTI杂波抑制的新方法[J].现代电子技术,2008(03):1-3+10. 被引次数:1.

[63]陈柱学,王彤.一种估计强旁瓣目标频率的方法[J].雷达与对抗,2008(01):34-36+63. 被引次数:0.

[64]董艳艳,王彤.机载雷达三维空时自适应信号处理[J].雷达科学与技术,2008(02):138-142. 被引次数:1.

[65]孟祥东,王彤,保铮.干涉合成孔径雷达的垂直基线对图像相干性的影响[J].电子学报,2008(06):1222-1226. 被引次数:7.

[66]谭晓斐,田北京,王彤.阵列天线自适应波束形成的一种改进方法[J].雷达科学与技术,2008(04):297-301. 被引次数:2.

[67]李明,王彤.单天线SAR动目标的检测和聚焦[J].系统工程与电子技术,2008(09):1645-1648. 被引次数:1.

[68]吴建新,王彤,索志勇,保铮.空时自适应处理的滑窗递推QR算法[J].电子与信息学报,2008(10):2338-2342.被引次数:4.

[69]刘晓龙,王彤.Keystone变换在地面运动目标检测中的应用[J].电子科技,2008(10):24-26. 被引次数:2.

[70]杨垒,王彤,邢孟道,保铮.机载多通道SAR-GMTI的杂波抑制方法[J].电子与信息学报,2008,30(12):2831-2834. 被引次数:13.

[71]孟祥东,吴建新,王彤,保铮.机载双基雷达杂波分析及其距离模糊杂波的抑制[J].西安电子科技大学学报,2008,35(06):992-998. 被引次数:13.

[72]王彤,保铮.提高沿航向干涉法性能的最小二乘图像对补偿方法[J].自然科学进展,2008(12):1484-1490. 被引次数:12.

[73]田北京,谭晓斐,王彤.非均匀邻接子阵结构划分方法研究[J].雷达科学与技术,2009,7(01):75-80. 被引次数:8.

[74]张立峰,王彤,邢孟道,保铮.多通道SAR-GMTI通道均衡和动目标检测定位方法[J].西安电子科技大学学报,2009,36(01):11-16+57. 被引次数:14.

[75]吴建新,王彤,索志勇.一种快速波达方向估计算法[J].西安电子科技大学学报,2009,36(02):263-268. 被引次数:15.

[76]杨垒,王彤,保铮.解运动目标径向速度模糊的一种新方法[J].西安电子科技大学学报,2009,36(02):189-192. 被引次数:13.

[77]孟祥东,王彤,吴建新,保铮.机载雷达非正侧面阵近程杂波抑制新方法[J].西安电子科技大学学报,2009,36(02):245-249. 被引次数:9.

[78]吴建新,王彤,索志勇,保铮.机载正侧阵雷达杂波自由度分析[J].电子学报,2009,37(06):1329-1333. 被引次数:1.

[79]杨垒,王彤,保铮.一种星载ATI-GMTI系统最优基线设计方法[J].电子学报,2009,37(06):1175-1179. 被引次数:2.

[80]吴建新,王彤,索志勇.机载高重复频率雷达多普勒中心估计方法[J].西安电子科技大学学报,2009,36(03):396-400. 被引次数:6.

[81]杨垒,王彤,保铮.地面运动目标不模糊径向速度估计的方法[J].西安交通大学学报,2009,43(08):76-79. 被引次数:6.

[82]吴建新,王彤,索志勇,保铮.基于DPSS投影矩阵的单通道运动目标检测方法[J].数据采集与处理,2009,24(06):802-807. 被引次数:0.

[83]李萍,韩伟,王彤.近程杂波的非均匀分段处理法[J].雷达科学与技术,2010,8(01):60-64. 被引次数:4.

[84]孟祥东,王彤,吴建新,保铮.机载相控阵雷达近程杂波抑制的俯仰向空域自适应算法[J].电子与信息学报,2010,32(04):948-952. 被引次数:28.

[85]李世文,王彤,吴建新.FA方法和EFA方法多普勒清晰区性能分析[J].雷达科学与技术,2010,8(05):452-457+462. 被引次数:2.

[86]张立峰,王彤,吴建新,保铮.机载雷达目标空时参数快速估计方法[J].西安交通大学学报,2012,46(02):135-140. 被引次数:2.

[87]胡瑞贤,王彤,保铮,刘保昌.一种基于惯导信息的多普勒波束锐化图像拼接算法[J].电子与信息学报,2012,34(06):1337-1343. 被引次数:14.

[88]胡瑞贤,王彤,保铮.基于多波位杂波的通道相位误差估计方法[J].系统工程与电子技术,2012,34(09):1788-1795. 被引次数:5.

[89]张立峰,王彤,吴建新,保铮.利用重叠子阵交替发射提高机载双基正侧阵雷达杂波抑制性能的方法[J].电子与信息学报,2013,35(04):888-893. 被引次数:0.

[90]胡瑞贤,王彤,保铮.扫描GMTI系统运动目标精确定位方法[J].系统工程与电子技术,2013,35(08):1607-1614. 被引次数:4.

[91]陈成增,吴建新,王彤,吴亿锋.基于鉴角曲线拟合的自适应单脉冲测角方法[J].系统工程与电子技术,2013,35(07):1403-1408. 被引次数:7.

[92]陈成增,王彤,吴建新.基于三阶泰勒展开的自适应单脉冲测角方法[J].现代雷达,2013,35(08):32-36+58. 被引次数:3.

[93]文才,王彤.单基地MIMO雷达降维酉ESPRIT算法[J].系统工程与电子技术,2014,36(06):1062-1067. 被引次数:11.

[94]文才,王彤,吴建新.直接数据域迭代空时自适应处理方法[J].系统工程与电子技术,2014,36(05):831-837. 被引次数:8.

[95]姜磊,王彤.基于子空间的阵元误差估计方法[J].系统工程与电子技术,2014,36(04):656-660. 被引次数:6.

[96]吴亿锋,王彤,吴建新.转发式干扰环境中的机载雷达运动目标检测[J].西安电子科技大学学报,2014,41(06):51-56+154. 被引次数:4.

[97]吴亿锋,王彤,吴建新,文才.基于广义旁瓣相消的机载雷达抗密集转发式干扰方法[J].电子与信息学报,2014,36(05):1049-1054. 被引次数:5.

[98]文才,王彤,吴亿锋,吴建新.极化-空域联合抗机载雷达欺骗式主瓣干扰[J].电子与信息学报,2014,36(07):1552-1559. 被引次数:9.

[99]文才,王彤,吴建新.低重频数据辅助的近程杂波抑制方法[J].电波科学学报,2014,29(04):729-737+744. 被引次数:4.

[100]姜磊,王彤.机载非正侧阵雷达自适应子空间方法[J].电子与信息学报,2014,36(09):2214-2219. 被引次数:2.

[101]姜磊,王彤.机载雷达自适应发射技术抗相干转发式干扰[J].系统工程与电子技术,2015,37(04):789-794. 被引次数:1.

[102]同亚龙,王彤,代保全,吴建新.基于杂波脊先验信息的非均匀杂波抑制方法[J].系统工程与电子技术,2015,37(05):1035-1041. 被引次数:1.

[103]代保全,王彤,同亚龙,吴建新,保铮.基于椭球不确定集约束的鲁棒自适应相干检测器[J].电子与信息学报,2014,36(12):2969-2974. 被引次数:0.

[104]吴亿锋,王彤,吴建新,代保全,同亚龙.基于道路信息的知识辅助空时自适应处理[J].电子与信息学报,2015,37(03):613-618. 被引次数:5.

[105]同亚龙,王彤,代保全,吴建新.一种抗密集欺骗式干扰的机载雷达动目标检测方法[J].电子与信息学报,2015,37(03):658-664. 被引次数:4.

[106]同亚龙,王彤,文才,吴建新.一种稳健的机载非正侧视阵雷达杂波抑制方法[J].电子与信息学报,2015,37(05):1044-1050. 被引次数:5.

[107]姜磊,王彤.基于杂波数据Frobenius范数拟合的阵元误差估计方法[J].系统工程与电子技术,2015,37(12):2713-2718. 被引次数:1.

[108]姜磊,王彤.机载雷达自适应对角加载参数估计方法[J].电子与信息学报,2016,38(07):1752-1757. 被引次数:0.

[109]王娟,王彤,吴建新.非正侧阵机载雷达杂波谱迭代自适应配准方法[J].系统工程与电子技术,2017,39(04): 742-747. 被引次数:0.