Potential of a SAR Small-Satellite Constellation for Rapid Monitoring of Flood Extent

Constellations of small satellites equipped with synthetic aperture radar (SAR) payloads can realize observations in short time intervals independently from daylight and weather conditions and this technology is now in the early stages of development. This tool would greatly contribute to rapid flood monitoring, which is usually one of the main missions in upcoming plans, but few studies have focused on this potential application and a required observation performance for flood disaster monitoring has been unclear. In this study, we propose an unprecedented method for investigating how flood extents would be temporally and spatially observed with a SAR small-satellite constellation and for evaluating that observation performance via an original index. The virtual experiments of flood monitoring with designed constellations were conducted using two case studies of flood events in Japan. Experimental results showed that a SAR small-satellite constellation with sun-synchronous orbit at 570 km altitude, 30-km swath, 15-30 degrees incidence angle, and 20 satellites can achieve 87% acquisition of cumulative flood extent in total observations. There is a difference between the results of observation performance in two cases because of each flood's characteristics and a SAR satellite's observation system, which implies the necessity of individual assessments for various types of rivers.

Automated summary

This study utilizes a constellation of small satellites equipped with synthetic aperture radar to conduct flood monitoring experiments, demonstrating that the technology can independently observe flood extents in short time intervals effectively. However, different flood events exhibit varying characteristics and satellite observation systems, requiring individual assessments for accurate monitoring.