2009 |
25 | EE | Da-Zheng Feng,
Xiao-Ming Li,
Hui Lv,
Hong-Wei Liu,
Zheng Bao:
Two-sided minimum-variance distortionless response beamformer for MIMO radar.
Signal Processing 89(3): 328-332 (2009) |
2008 |
24 | EE | Bo Chen,
Hongwei Liu,
Zheng Bao:
A kernel optimization method based on the localized kernel Fisher criterion.
Pattern Recognition 41(3): 1098-1109 (2008) |
23 | EE | Bo Chen,
Hongwei Liu,
Zheng Bao:
Optimizing the data-dependent kernel under a unified kernel optimization framework.
Pattern Recognition 41(6): 2107-2119 (2008) |
22 | EE | Lan Du,
Hongwei Liu,
Zheng Bao,
Junying Zhang:
Radar automatic target recognition based on feature extraction for complex HRRP.
Science in China Series F: Information Sciences 51(8): 1138-1153 (2008) |
21 | EE | Baochang Liu,
Tong Wang,
Zheng Bao:
Slant-range velocity estimation based on Small-FM-Rate Chirp.
Signal Processing 88(10): 2472-2482 (2008) |
20 | EE | Lan Du,
Hongwei Liu,
Zheng Bao:
Radar HRRP statistical recognition based on hypersphere model.
Signal Processing 88(5): 1176-1190 (2008) |
2007 |
19 | EE | Lan Du,
Hongwei Liu,
Zheng Bao,
Feng Chen:
A Novel Feature Vector Using Complex HRRP for Radar Target Recognition.
ISNN (1) 2007: 1303-1309 |
18 | EE | Bo Chen,
Li Yuan,
Hongwei Liu,
Zheng Bao:
Kernel subclass discriminant analysis.
Neurocomputing 71(1-3): 455-458 (2007) |
2006 |
17 | EE | Lan Du,
Junying Zhang,
Zheng Bao:
Multicategory Classification Based on the Hypercube Self-Organizing Mapping (SOM) Scheme.
ICNC (1) 2006: 107-110 |
16 | EE | Bo Chen,
Hongwei Liu,
Zheng Bao:
General Kernel Optimization Model Based on Kernel Fisher Criterion.
ICNC (1) 2006: 143-146 |
15 | EE | Bo Chen,
Hongwei Liu,
Zheng Bao:
Speeding Up SVM in Test Phase: Application to Radar HRRP ATR.
ICONIP (1) 2006: 811-818 |
14 | EE | Bo Chen,
Hongwei Liu,
Zheng Bao:
A Kernel Optimization Method Based on the Localized Kernel Fisher Criterion.
ISNN (1) 2006: 915-921 |
13 | EE | Hai Li,
Zhenfang Li,
Guisheng Liao,
Zheng Bao:
An estimation method for InSAR interferometric phase combined with image auto-coregistration.
Science in China Series F: Information Sciences 49(3): 386-396 (2006) |
2005 |
12 | EE | Hongwei Liu,
Hongtao Su,
Zheng Bao:
Radar High Range Resolution Profiles Feature Extraction Based on Kernel PCA and Kernel ICA.
ISNN (1) 2005: 913-918 |
11 | EE | Lan Du,
Hongwei Liu,
Zheng Bao,
Junying Zhang:
A Compound Statistical Model Based Radar HRRP Target Recognition.
ISNN (2) 2005: 369-374 |
10 | EE | Lan Du,
Hongwei Liu,
Zheng Bao,
Mengdao Xing:
Radar HRRP target recognition based on higher order spectra.
IEEE Transactions on Signal Processing 53(7): 2359-2368 (2005) |
2004 |
9 | EE | Hongwei Liu,
Zheng Bao:
Radar HRR Profiles Recognition Based on SVM with Power-Transformed-Correlation Kernel.
ISNN (1) 2004: 531-536 |
2003 |
8 | EE | Da-Zheng Feng,
Xian-Da Zhang,
Zheng Bao:
An efficient multistage decomposition approach for independent components.
Signal Processing 83(1): 181-197 (2003) |
2002 |
7 | EE | Bingnan Pei,
Zheng Bao,
Mengdao Xing:
Logarithm bispectrum-based approach to radar range profile for automatic target recognition.
Pattern Recognition 35(11): 2643-2651 (2002) |
6 | EE | Penglang Shui,
Zheng Bao,
Xianda Zhang,
Yuanyan Tang:
Two-channel adaptive biorthogonal filterbanks via lifting.
Signal Processing 82(6): 881-893 (2002) |
2001 |
5 | EE | Zhuoer Shi,
G. W. Wei,
Donald Kouri,
David Hoffman,
Zheng Bao:
Lagrange wavelets for signal processing.
IEEE Transactions on Image Processing 10(10): 1488-1508 (2001) |
4 | EE | Da-Zheng Feng,
Zheng Bao,
Xian-Da Zhang:
A bi-iteration instrumental variable noise-subspace tracking algorithm.
Signal Processing 81(10): 2215-2221 (2001) |
3 | EE | Da-Zheng Feng,
Hai-Qin Zhang,
Xian-Da Zhang,
Zheng Bao:
An extended recursive least-squares algorithm.
Signal Processing 81(5): 1075-1081 (2001) |
2000 |
2 | EE | Xuejun Liao,
Zheng Bao:
Radar Target Recognition Based on Parameterized High Resolution Range Profiles.
IJPRAI 14(7): 979-986 (2000) |
1996 |
1 | EE | Qun Zhao,
Zheng Bao:
Radar target recognition using a radial basis function neural network.
Neural Networks 9(4): 709-720 (1996) |