Alex Herz, Orbit Logic, Ella Herz, Orbit Logic, Kenneth Center, Orbit Logic, Doug George, Orbit Logic, Penina Axelrad, University of Colorado, Brandon Jones, University of Texas
Keywords: SSN, SSA, Heimdall Web, Non-traditional Sensors, Advanced Sensor Scheduling
Abstract:
The Space Surveillance Network (SSN) is tasked with the increasingly difficult mission of detecting, tracking, cataloging and identifying artificial objects orbiting the Earth, including active and inactive satellites, spent rocket bodies, and fragmented debris. Much of the architecture and operations of the SSN are limited and outdated. Efforts are underway to modernize some elements of the systems. Even so, the ability to maintain the best current Space Situational Awareness (SSA) picture and identify emerging events in a timely fashion could be significantly improved by leveraging non-traditional sensor sites. Orbit Logic, the University of Colorado and the University of Texas at Austin are developing an innovative architecture and operations concept to coordinate the tasking and observation information processing of non – traditional assets based on information-theoretic approaches. These confirmed tasking schedules and the resulting data can then be used to “inform†the SSN tasking process. The ‘Heimdall Web’ system is comprised of core tasking optimization components and accompanying Web interfaces within a secure, split architecture that will for the first time allow non-traditional sensors to support SSA and improve SSN tasking. Heimdall Web application components appropriately score/prioritize space catalog objects based on covariance, priority, observability, expected information gain, and probability of detect – then coordinate an efficient sensor observation schedule for non-SSN sensors contributing to the overall SSA picture maintained by the Joint Space Operations Center (JSpOC). The Heimdall Web Ops concept supports sensor participation levels of “Scheduledâ€, “Tasked†and “Contributingâ€. Scheduled and Tasked sensors are provided optimized observation schedules or object tracking lists from central algorithms, while Contributing sensors review and select from a list of “desired track objectsâ€. All sensors are “Web Enabled†for tasking and feedback, supplying observation schedules, confirmed observations and related data back to Heimdall Web to complete the feedback loop for the next scheduling iteration.
Date of Conference: September 20-23, 2016
Track: SSA Algorithms