Add to ORKGBi- and multistatic synthetic aperture radar (SAR) operates with distinct transmit and receive antennas which are mounted on separate platforms. Such a spatial separation has several operational advantages which will increase the capability, reliability and flexibility of future SAR missions. We will introduce various spaceborne bi- and multistatic SAR configurations and compare their potentials for different applications like frequent monitoring, wide swath imaging, scene classification, single-pass cross-track interferometry or resolution enhancement
Abstract — Synthetic Aperture Radar (SAR) is an indispensable source of information in earth observa...
Future bi- and multistatic SAR systems could support the scientific community and the commercial mar...
Spaceborne bistatic and multistatic SAR configurations are an attractive approach to acquire along-t...
Bi- and multistatic synthetic aperture radar (SAR) operates with distinct transmit and receive anten...
This tutorial provides a comprehensive overview of the potentials and challenges of bistatic and mul...
The performance and capabilities of bi- and multistatic spaceborne synthetic aperture radar (SAR) ar...
The performance and capabilities of bi- and multistatic spaceborne synthetic aperture radar (SAR) ar...
The performance and capabilities of a bistatic spaceborne synthetic aperture radar (SAR) are analyze...
This chapter analyses spaceborne multistatic imaging radar systems employing two or more receiver an...
This tutorial provides an overview of multistatic and multi-aperture SAR systems. Such systems emplo...
This tutorial provides an overview of multistatic and multi-aperture SAR systems. Such systems emplo...
This tutorial provides an overview of multistatic and multi-aperture SAR systems. Such systems emplo...
Future bi- and multistatic SAR systems could support the scientific community and the commercial mar...
The performance and capabilities of bi- and multistatic spaceborne synthetic aperture radar (SAR) ar...
This paper discusses the capabilities of multistatic SAR satellite configurations for different app...
Abstract — Synthetic Aperture Radar (SAR) is an indispensable source of information in earth observa...
Future bi- and multistatic SAR systems could support the scientific community and the commercial mar...
Spaceborne bistatic and multistatic SAR configurations are an attractive approach to acquire along-t...
Bi- and multistatic synthetic aperture radar (SAR) operates with distinct transmit and receive anten...
This tutorial provides a comprehensive overview of the potentials and challenges of bistatic and mul...
The performance and capabilities of bi- and multistatic spaceborne synthetic aperture radar (SAR) ar...
The performance and capabilities of bi- and multistatic spaceborne synthetic aperture radar (SAR) ar...
The performance and capabilities of a bistatic spaceborne synthetic aperture radar (SAR) are analyze...
This chapter analyses spaceborne multistatic imaging radar systems employing two or more receiver an...
This tutorial provides an overview of multistatic and multi-aperture SAR systems. Such systems emplo...
This tutorial provides an overview of multistatic and multi-aperture SAR systems. Such systems emplo...
This tutorial provides an overview of multistatic and multi-aperture SAR systems. Such systems emplo...
Future bi- and multistatic SAR systems could support the scientific community and the commercial mar...
The performance and capabilities of bi- and multistatic spaceborne synthetic aperture radar (SAR) ar...
This paper discusses the capabilities of multistatic SAR satellite configurations for different app...
Abstract — Synthetic Aperture Radar (SAR) is an indispensable source of information in earth observa...
Future bi- and multistatic SAR systems could support the scientific community and the commercial mar...
Spaceborne bistatic and multistatic SAR configurations are an attractive approach to acquire along-t...