Sentinel-1 is a C-band imaging radar mission meant to provide an all-weather day-and-night supply of imagery for Copernicus global monitoring services. The first Sentinel-1 satellite is scheduled to be launched on April, 3 2014 and will be followed by the second satellite a few years later.
Dedicated to the Copernicus program, Sentinel-1 will ensure the continuity of C-band SAR data downlinks and builds upon the ESA’s and Canada’s heritage SAR systems, Envisat and Radarsat.
Sentinel’s SAR sensor will operate in two main modes: Interferometric Wide Swath and Wave. The first has a swath width of 250 km and a ground resolution of 5×20 m. These two modes will satisfy most of the envisaged service requirements. Two other mutually exclusive modes are provided for continuity with other SAR missions and to accommodate emerging user requirements.
Sentinel-1’s revisit time, geographical coverage and rapid data dissemination are key to providing essential data for Copernicus. The Sentinel-1 pair is expected to provide coverage over Europe, Canada and main shipping routes in 1–3 days, regardless of weather conditions. Radar data will be delivered within an hour of acquisition – a big improvement over existing SAR systems.
For its part Sentinel will upgrade the Copernicus mission by adding a number of additional services. For example, services that relate to the monitoring of Arctic sea-ice extent, routine sea-ice mapping, surveillance of the marine environment, including oil-spill monitoring and ship detection for maritime security, monitoring land-surface for motion risks, mapping for forest, water and soil management and mapping to support humanitarian aid and crisis situations.
The design of the Sentinel-1 mission, with its focus on reliability, operational stability, global coverage, consistent operations and quick data delivery, is expected to enable the development of new applications and meet the evolving needs of Copernicus.
Sentinel-1 will be launched on a Soyuz rocket from Europe’s Spaceport in French Guiana.
Image and Video Courtesy of ESA
Source: ESA