Tandem-L: Design Concepts for a Next-Generation Spaceborne SAR System

Tandem-L is a fully polarimetric bistatic spaceborne SARmission with the goal of monitoring dynamic processes on the Earth's surface. Important applications are regular inventories of the global-scale biomass, systematic measurements of surface deformations with millimeter accuracy, the generation of digital surface and terrain models, as well as disaster monitoring related to ooding events, earthquakes and volcano eruptions. To serve this wide variety of services and applications, the imaging and mapping requirements exceed those of state-of-the-art missions by at least one order of magnitude. Such a pioneering mission necessarily initiates new technology developments in the elds of radar hardware, data processing and data distribution. The Tandem-L radar satellites employ large unfoldable mesh re ector antennas, which have been identified ideal for highly sensitive, high-resolution wide swath SAR acquisitions. This paper gives an overview of the system concepts of next-generation SAR sensors like Tandem-L and details some of the design aspects and optimisation potentials leading to an improved performance and fulflling the user requirements.