Technical Program: Paper Detail || IEEE IGARSS 2024 || Athens, Greece || 7

TH2.R14.7

ENHANCING THE DETECTION PROBABILITY OF BURIED OBJECTS BY PHASE ANALYSIS OF A SFCW-GPR

Bernd Arendt, Michael Schneider, Thomas Walter, University of Applied Science Ulm, Germany

Session:

TH2.R14: Sub-surface sensing: Methods and Applications II Oral

Location:

Banqueting Hall

Presentation Time:

Thu, 11 Jul, 13:04 - 13:18

Session Co-Chairs:

Kamal Sarabandi, University of Michigan and Maria Garcia-Fernandez, Queen's University Belfast and Tsukasa Mizutani, Institute of Industrial Science, The University of Tokyo

Session TH2.R14

TH2.R14.1: MAPPING OF GROUND LAYER DISCONTINUITIES USING A MULTISTATIC SUBSURFACE SAR

Abdulrahman Aljurbua, Hussein Shaman, King Abdulaziz City for Science and Technology, Saudi Arabia; Kamal Sarabandi, University of Michigan, United States

TH2.R14.2: PLATFORM ALTITUDE AND VELOCITY CONSTRAINTS ON THE DETECTABILITY OF SUBSURFACE INTERFACES IN RADAR SOUNDING DATA

Dustin Schroeder, Thomas Teisberg, Stanford University, United States

TH2.R14.3: ON THE SPATIAL RESOLUTION OF UAV-MOUNTED DLGPR IMAGING SYSTEMS

Maria Garcia-Fernandez, Guillermo Alvarez-Narciandi, Queen's University Belfast, United Kingdom; Jaime Laviada, Yuri Alvarez, Fernando Las Heras, University of Oviedo, Spain

TH2.R14.4: INTERPOLATION OF LOW-SAMPLING INTERVAL GROUND PENETRATING RADAR IMAGES BY F-K DOMAIN CONVOLUTIONAL NEURAL NETWORKS

Takanori Imai, The University of Tokyo, Japan; Tsukasa Mizutani, Institute of Industrial Science, The University of Tokyo, Japan

TH2.R14.5: HIERARCHICAL LEARNING FOR THE UNSUPERVISED SEGMENTATION OF RADAR SOUNDER DATA ACQUIRED ON THE CRYOSPHERE

Elena Donini, Francesca Bovolo, Fondazione Bruno Kessler, Italy

TH2.R14.6: ANALYSIS OF THE DETECTABILITY OF LAVA FLOW FORMATIONS ON VENUS BY SUBSURFACE RADAR SOUNDING SIMULATIONS

Ludovica Maria Beati, Marco Cortellazzi, Lorenzo Bruzzone, University of Trento, Italy

TH2.R14.7: ENHANCING THE DETECTION PROBABILITY OF BURIED OBJECTS BY PHASE ANALYSIS OF A SFCW-GPR

Bernd Arendt, Michael Schneider, Thomas Walter, University of Applied Science Ulm, Germany