Title :
Multi-layer detection/tracking for monostatic ground penetrating radar
Author :
Rampa, V. ; Spagnolini, U.
Author_Institution :
Politecnico di Milano, Italy
Abstract :
In monostatic ground penetrating radar (GPR) the interfaces profile can be estimated from echoes amplitude and time of delay (TOD) using a layer stripping inversion algorithm. The authors´ aim is to establish a reliable processing sequence for layer stripping inversion by estimating echoes TOD that keeps into account the layers lateral continuity, and by tracking the corresponding interfaces. The authors propose first an algorithm for multitarget tracking and then they describe the application of detection/tracking to Ins pulse monostatic GPR. The system is used to estimate layer thicknesses of asphalt and concrete in pavement profiling. Detection/tracking shows a better recognition capability of the lateral continuity in near surface interfaces with respect to algorithms that employ only local detection of echoes
Keywords :
geophysical techniques; inverse problems; radar applications; remote sensing by radar; terrestrial electricity; buried object detection; echo amplitude; geology; geophysical measurement technique; ground penetrating radar; interface profile; inverse problem; layer stripping inversion; layer stripping inversion algorithm; layer thickness; monostatic ground penetrating radar; multi-layer detection; processing sequence; radar remote sensing; scattering intensity; terrain mapping; terrestrial electricity; time of delay; Asphalt; Concrete; Delay effects; Delay estimation; Face detection; Ground penetrating radar; Pulse measurements; Radar detection; Radar tracking; Vehicles;
Conference_Titel :
Geoscience and Remote Sensing Symposium, 1996. IGARSS '96. 'Remote Sensing for a Sustainable Future.', International
Conference_Location :
Lincoln, NE
Print_ISBN :
0-7803-3068-4
DOI :
10.1109/IGARSS.1996.516881
