New capability enables radar imaging satellites to focus on a single point on Earth as they pass overhead, packing an unparalleled amount of information into a single collection.
ICEYE has announced a new imaging mode known as Dwell. With Dwell, ICEYE synthetic aperture radar (SAR) satellites remain focused on a specific point on the ground for an extended collection time. This unique long-duration imaging mode allows ICEYE satellites to capture significantly more information about the imaging target, creating a powerful new capability for imagery users. For example, Dwell can be used to determine the heading and speed of moving vehicles, and under some circumstances, Dwell can even enable the discovery of human-made objects that would otherwise remain hidden under tree canopy. The Dwell product is unique in commercial remote sensing and will transform how customers with demanding mission requirements exploit SAR imagery.
“Dwell mode is ideal for customers who need to extract more information from our radar imagery, including movement and direction. In the long term, the research community, scientists, the SAR community, and most importantly, our customers with demanding missions will benefit from this latest ICEYE innovation. This product is another element in using remote sensing to better understand and characterize what is happening and changing on the ground in all lighting and weather conditions,” said John Cartwright, Head of Data Product, ICEYE.
The Dwell image product is created from a 25-second collection of the imaging target, in contrast to the 10-second duration of a traditional high-resolution ICEYE Spot image. This longer-duration collection provides new information about activity on the ground while also improving the image fidelity over a traditional SAR image. The result is a powerful new imaging capability that will expand the use of SAR for critical applications. Importantly, when combined with ICEYE’s day/night all-weather imaging capability and tactical responsiveness, Dwell provides an imagery capability that is superior to electro-optical collections.