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TH1.R7.1: DEEP LEARNING-BASED HYPERSPECTRAL TARGET DETECTION WITHOUT EXTRA LABELED DATA
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| Zeyang Dou; Beijing Institute of Technology |
| Kun Gao; Beijing Institute of Technology |
| Xiaodian Zhang; Beijing Institute of Technology |
| Junwei Wang; Beijing Institute of Technology |
| Hong Wang; Beijing Institute of Technology |
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TH1.R7.2: DICTIONARY LEARNING HYPERSPECTRAL TARGET DETECTION ALGORITHM BASED ON TUCKER TENSOR DECOMPOSITION
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| Chunhui Zhao; Harbin Engineering University |
| Mingxing Wang; Harbin Engineering University |
| Nan Su; Harbin Engineering University |
| Shou Feng; Harbin Engineering University |
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TH1.R7.3: INTEREST OF TEMPORAL METHODS OVER SPATIAL METHODS IN ORDER TO DETECT SMALL TARGETS
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| Nathan Paillou; SONDRA / CentraleSupélec |
| Laetitia Thirion-Lefèvre; SONDRA / CentraleSupélec |
| Régis Guinvarc'h; SONDRA / CentraleSupélec |
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TH1.R7.4: SPECTRAL-SPATIAL JOINT TARGET DETECTION OF HYPERSPECTRAL IMAGE BASED ON TRANSFER LEARNING
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| Zhenyuan Feng; Harbin Institute of Technology |
| Junping Zhang; Harbin Institute of Technology |
| Jia Feng; Harbin Institute of Technology |
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TH1.R7.5: A HIGH RESOLUTION SAR SHIP SAMPLE DATABASE AND SHIP TYPE CLASSIFICATION
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| Meng Bao; First Institute of Oceanography, Ministry of Natural Resources |
| Junmin Meng; First Institute of Oceanography, Ministry of Natural Resources |
| Xi Zhang; First Institute of Oceanography, Ministry of Natural Resources |
| Genwang Liu; First Institute of Oceanography, Ministry of Natural Resources |
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TH1.R7.6: VISUAL CONTEXT AWARE SHIP DETECTOR FOR HIGH-RESOLUTION SAR IMAGERY
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| Shigang Wang; Northwestern Polytechnical University |
| Dongsheng Li; Northwestern Polytechnical University |
| Shuwen Liu; Northwestern Polytechnical University |
| Bin Li; Northwestern Polytechnical University |
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TH1.R7.7: A NOVEL GOSD-CFAR FOR MILLIMETER WAVE RADAR DETECTION
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| Fei Qin; Aerospace Information Research Institute, Chinese Academy of Sciences |
| Yunlong Liu; Aerospace Information Research Institute, Chinese Academy of Sciences |
| Xingdong Liang; Aerospace Information Research Institute, Chinese Academy of Sciences |
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TH1.R7.8: SOME CLOSED-FORM EXPRESSIONS FOR ABSORPTIVE PLUME DETECTION
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| James Theiler; Los Alamos National Laboratory |
| Alan Schaum; U. S. Naval Research Laboratory |
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TH1.R7.9: SPECTRAL INFORMATION CONTENT ALGORITHM FOR AUTOMATED SIGNATURE ASSESSMENT
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| Blake Rankin; Johns Hopkins University Applied Physics Laboratory |
| Timothy Lippa; Johns Hopkins University Applied Physics Laboratory |
| Joshua Broadwater; Johns Hopkins University Applied Physics Laboratory |
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TH1.R7.10: AN IMPROVED TARGET EXTRACTION SCHEME FOR FORWARD-LOOKING SCANNING RADAR
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| Wenchao Li; University of Electronic Science and Technology of China |
| Shirui Yang; University of Electronic Science and Technology of China |
| Wentao Zhang; University of Electronic Science and Technology of China |
| Yulin Huang; University of Electronic Science and Technology of China |
| Jianyu Yang; University of Electronic Science and Technology of China |
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TH1.R7.11: CHARACTERIZATION OF THE WALKING ACTIVITY WITHIN THE FOREST BY USING A DOPPLER ANALYSIS IN THE UHF-BAND
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| Giovanni Manfredi; CentraleSupélec, Université Paris-Saclay |
| Israel Hinostroza; CentraleSupélec, Université Paris-Saclay |
| Michel Menelle; ONERA, Université Paris-Saclay |
| Stephane Saillant; ONERA, Université Paris-Saclay |
| Jean Philippe Ovarlez; ONERA, Université Paris-Saclay - CentraleSupélec |
| Laetitia Thirion-Lefevre; CentraleSupélec, Université Paris-Saclay |
