Title :
System characteristics for wide swath L-band SAR onboard ALOS-2/PALSAR-2
Author :
Okada, Yoshitaka ; Nakamura, Shigenari ; Iribe, K. ; Yokota, Yuji ; Tsuji, Mineo ; Hariu, K. ; Kankaku, Yukihiro ; Suzuki, Satoshi ; Osawa, Yusuke ; Shimada, Masanobu
Author_Institution :
Mitsubishi Electr. Corp., Kamakura, Japan
Abstract :
Advanced Land Observing Satellite-2 (ALOS-2) is a next-generation Japanese L-band SAR satellite. Since one of an important mission of ALOS-2 is a global monitoring, a capability of wider coverage is required. On the contrary, in the point of disaster monitoring, higher spatial resolution is essential. To comply with such a contradictive requirement of wide swath and high resolution, ALOS-2 utilizes a dual-receive channel (DRC) technique, and achieved a coverage area of up to 50km with a spatial resolution of down to 3m. For a wider coverage of polarimetric observation, ALOS-2 installs the fully redundant and “quad-receive channel” system to full-polarimetric mode, achieving a maximum coverage of 50km at 6m resolution. As an experimental mode, new polarimetric mode called “compact polarimetry” is installed for a wide coverage of polarimetric observation.
Keywords :
disasters; geophysical equipment; radar polarimetry; remote sensing by radar; synthetic aperture radar; ALOS-2 mission; ALOS-2-PALSAR-2; DRC technique; advanced land observing satellite-2; compact polarimetry; coverage area; disaster monitoring; dual-receive channel technique; experimental mode; full-polarimetric mode; fully redundant system; global monitoring; higher spatial resolution; maximum resolution coverage; next-generation Japanese L-band SAR satellite; polarimetric mode; quad-receive channel system; spatial resolution; system characteristics; wide coverage polarimetric observation; wide swath L-band SAR; wide swath contradictive requirement; wider coverage capability; wider coverage polarimetric observation; Azimuth; L-band; Polarimetry; Satellites; Spatial resolution; Synthetic aperture radar; Transmission line measurements;
Conference_Titel :
Synthetic Aperture Radar (APSAR), 2013 Asia-Pacific Conference on
Conference_Location :
Tsukuba
