Umbra, a vertically integrated space technology company operating the world's highest resolution commercial Synthetic Aperture Radar (SAR) satellites, announced that it has successfully launched a new pair of SAR satellites, Umbra-09 and Umbra-10, aboard the Transporter-11 Rideshare mission with SpaceX on August 16, 2024.
Umbra launched its first mission that included two-satellite tandem operations, Umbra-07 and Umbra-08, aboard the Transporter-9 mission on November 9, 2023. Umbra will continue deploying its constellation to satisfy global commercial demand for high-resolution, densely spaced monostatic and multistatic imagery.
"Umbra already delivers the largest volume of high-resolution SAR imagery in the concentrated areas of highest demand," said Todd Master, Chief Operating Officer of Umbra. "These additional satellites will unlock even more imagery over high-demand areas for our customers, and our paired operations offer the ability to generate incredible data products uniquely enabled by Umbra."
Umbra satellites capture seven times more images over high-demand areas and in higher resolution than any commercial competitor with the help of their unique satellite design and advanced mission scheduling technology. Umbra has won several contracts with government and commercial organizations like Maxar, the largest commercial satellite imagery vendor in the U.S. Umbra data provides timely insights and actionable intelligence when and where it's needed most.
Umbra recently expanded its business by launching a Mission Solutions line, leveraging its vertical integration and remote sensing expertise to develop custom satellite solutions for governments and large multinational corporations. Since its establishment in 2015, Umbra has become a leader in remote sensing. Umbra's innovative SAR imaging and patented satellite technology solutions offer all-weather, day-and-night monitoring, setting new standards for reliability, precision, and intelligence gathering.
Click here to learn more about Umbra Space's SAR Remote Sensing