Technical Program

Session Detail

Session Title MOP2.PH: Change Detection Techniques in Multitemporal SAR Images II
Presentation Mode Poster
Session Time Monday, 29 July, 15:20 - 16:20
Location Room 501-502: Poster Area H
Session ChairFrancesca Bovolo, Fondazione Bruno Kessler

MOP2.PH.1: INTERSEISMIC STRAIN ACCUMULATION ACROSS THE ZEMUHE-DALIANGSHAN FAULT ZONE IN HEAVILY-VEGETATED SOUTHWESTERN CHINA, FROM ALOS-2 INTERFEROMETRIC OBSERVATION
         Xiaogang Song; Institute of Geology, China Earthquake Administration
         Xinjian Shan; Institute of Geology, China Earthquake Administration
         Chunyan Qu; Institute of Geology, China Earthquake Administration

MOP2.PH.2: A MEASUREMENT CAMPAIGN IN HARBOR TO DETECT CHANGES OF ACTIVITIES
         Viet Thuy Vu; Blekinge Institute of Technology
         Mats Pettersson; Blekinge Institute of Technology
         Thomas Sjögren; Swedish Defense Reseach Agency
         Mattias Dahl; Blekinge Institute of Technology

MOP2.PH.3: RESIDUAL UNET FOR URBAN BUILDING CHANGE DETECTION WITH SENTINEL-1 SAR DATA
         Lu Li; Chinese Academy of Sciences
         Chao Wang; Chinese Academy of Sciences
         Hong Zhang; Chinese Academy of Sciences
         Bo Zhang; Chinese Academy of Sciences

MOP2.PH.4: ON-BOARD WAVELET BASED CHANGE DETECTION IMPLEMENTATION OF SAR FLOOD IMAGE
         Lei Shu; Tianjin University
         Guoqing Zhou; Tianjin University
         Dequan Liu; Tianjin University
         Jinjing Huang; Tianjin University
         Rongting Zhang; Tianjin University
         Fan Wang; Tianjin University

MOP2.PH.5: A METHOD FOR OBSERVING SEISMIC GROUND DEFORMATION FROM AIRBORNE SAR IMAGES
         Haruki Imai; Tohoku University
         Koichi Ito; Tohoku University
         Takafumi Aoki; Tohoku University
         Jyunpei Uemoto; National Institute of Information and Communications Technology (NICT)
         Seiho Uratsuka; National Institute of Information and Communications Technology (NICT)

MOP2.PH.6: A NOVEL ACTIVITY DETECTOR APPLIED TO SENTINEL-1 FOR SURVEILLANCE
         Axel Davy; ENS Paris-Saclay
         Max Dunitz; ENS Paris-Saclay

MOP2.PH.7: A CHANGE DETECTION ALGORITHM FOR SAR IMAGES BASED ON LOGISTIC REGRESSION
         Ricardo Simao Diniz Dal Molin Junior; Aeronautics Institute of Technology – ITA
         Rafael Antônio da Silva Rosa; Visiona Tecnologia Espacial S.A.
         Fábio Mariano Bayer; Federal University of Santa Maria
         Mats Pettersson; Blekinge Institute of Technology
         Renato Machado; Aeronautics Institute of Technology – ITA

MOP2.PH.8: COHERENCE CHANGE ANALYSIS FOR MULTIPASS INSAR IMAGES BASED ON THE CHANGE DETECTION MATRIX
         Thu Trang Le; Université Clermont Auvergne
         Jean-Luc Froger; Université Clermont Auvergne
         Alexis Hrysiewicz; Université Clermont Auvergne
         Raphael Paris; Université Clermont Auvergne

MOP2.PH.9: MULTI-TEMPORAL QUAD-POLARIMETRIC SAR CLASSIFICATION BASED ON A CHANGE MATRIX
         Cristian Silva; University of Stirling
         Armando Marino; University of Stirling
         Juan Manuel Lopez-Sanchez; University of Alicante
         Iain Cameron; Environment Systems LTD

MOP2.PH.10: CHANGE DETECTION BETWEEN HIGH-RESOLUTION AIRBORNE SAR AND MULTISPECTRAL DATA WITH DEMPSTER-SHAFER THEORY
         Julian Fagir; Remote Sensing Laboratories (RSL), University of Zurich
         Max Frioud; Remote Sensing Laboratories (RSL), University of Zurich
         Daniel Henke; Remote Sensing Laboratories (RSL), University of Zurich

MOP2.PH.11: CHANGE DETECTION FROM UNLABELED REMOTE SENSING IMAGES USING SIAMESE ANN
         Rachid Hedjam; Sultan Qaboos University
         Abdelhamid Abdesselam; Sultan Qaboos University
         Farid Melgani; University of Trento

MOP2.PH.12: DETECTION OF LAND USE TYPE USING MULTITEMPORAL SAR IMAGES
         Qiwen Yu; University of Electronic Science and Technology of China
         Minfeng Xing; University of Electronic Science and Technology of China
         Xiaofang Liu; Sichuan University of Science and Engineering
         Long Wang; University of Electronic Science and Technology of China
         Kaiwei Luo; University of Electronic Science and Technology of China
         Xingwen Quan; University of Electronic Science and Technology of China