Defense Advanced Research Projects AgencyTagged Content List

Satellites

Related to manmade objects placed in Earth orbit for military, commercial or scientific use

Showing 36 results for Satellites RSS
May 22, 2019, 9:00 AM ET,
The Naval Research Laboratory
The Tactical Technology Office is holding a Proposers Day meeting to provide information to potential proposers on the objectives of the new Robotic Servicing of Geosynchronous Satellites (RSGS) program and to facilitate teaming. The principal objective of RSGS is to create a dexterous robotic operational capability in Geosynchronous Orbit (GEO) that can both provide increased resilience for the current U.S. space infrastructure and be the first concrete step toward a transformed space architecture with revolutionary capabilities. A robotic servicing vehicle comprised of a robotic payload and a spacecraft bus will be jointly developed by DARPA, and the partner team selected. The long-term vision of the RSGS program is to enable a persistent, reliable, cost-effective cooperative robotic servicing capability in GEO, beginning with the robotic servicer developed under the RSGS program and operated by a commercial entity.
May 25-26, 2016,
Defense Advanced Research Projects Agency
The Defense Advanced Research Projects Agency (DARPA) Tactical Technology Office (TTO) is sponsoring a two-day Proposers Day to provide information to potential responders to the planned Program Solicitation (PS) for the Robotic Servicing of Geosynchronous Satellites (RSGS) Program. The Proposers Day will be held at the Defense Advanced Research Projects Agency, 675 North Randolph Street, Arlington, VA 22203 on May 25-26, 2016, from 8:30AM to 4:30PM. Advance registration is required.
Satellites today are launched via booster rocket from a limited number of ground facilities, which can involve a month or longer of preparation for a small payload and significant cost for each mission. Launch costs are driven in part today by fixed site infrastructure, integration, checkout and flight rules. Fixed launch sites can be rendered idle by something as innocuous as rain, and they also limit the direction and timing of orbits satellites can achieve.
Recent technological advances have made the longstanding dream of on-orbit robotic servicing of satellites a near-term possibility. The potential advantages of that unprecedented capability are enormous. Instead of designing their satellites to accommodate the harsh reality that, once launched, their investments could never be repaired or upgraded, satellite owners could use robotic vehicles to physically inspect, assist, and modify their on-orbit assets. That could significantly lower construction and deployment costs while dramatically extending satellite utility, resilience, and reliability.
The Geospatial Cloud Analytics (GCA) program is developing technology to rapidly access the most up-to-date commercial and open-source satellite imagery, as well as automated machine learning tools to analyze this data. Current approaches to geospatial analysis are ad hoc and time intensive, as they require gathering and curating data from a large number of available sources, downloading the data to specific locations, and running it through separate suites of analytics tools.