Optical Payload for Space Situational Awareness in Geosynchronous Orbit
Our technology roadmap concept—a low-cost space situational awareness sensor that could be integrated into a geostationary (GEO) satellite bus—was motivated by one particular research question: How can an emerging space actor contribute to space situational awareness in the geosynchronous region by launching just one satellite to GEO?
Space situational awareness (SSA)—detecting, identifying, and tracking resident space objects (RSOs) as they orbit the Earth—requires observing many RSOs, using the measurements deduced from those observations to determine the orbit of each object, and then using those determined orbits to identify objects again in the future, while further improving their orbital parameters. Comprehensive SSA results in knowing where all RSOs of some minimum size are at a given time and where they’re going, which results in a reasonably accurate assessment of the likelihood of collision between two RSOs. The collision of two satellites typically results in catastrophic damage to both RSOs involved and the creation of thousands of pieces of space debris, uniformly unfavorable results for all space actors in the orbital regime in which the collision occurred.
SSA systems generate RSO observations using a variety of sensors: including ground- and space-based optical telescopes and radar systems. SSA in GEO, specifically, has historically been pursued using optical, ground-based telescopes, as part of broader systems maintained by the space actors that have contributed the most number of RSOs to the near-Earth space environment: the United States and Russia. Since SSA is critical to maintaining a sustainable GEO environment, improving SSA in GEO is the interest of all space actors, even those in their earliest stages.
A relatively nascent space actor—one in the early stages of planning its first GEO launch—may not find it feasible to develop a new ground-based optical telescope to contribute to global space situational awareness. They could, however, contribute excellent SSA observations for the sliver of the GEO belt that they intend to occupy with their satellite upon successful launch. The new space actor could plan to add a small, optical sensor to its GEO satellite designed to monitor the satellite’s vicinity during its operational lifetime and report its observations either to the public or an international space object catalog.