Orbit Logic is honored to have four solutions chosen for the AFWERX Challenge. Below you'll find details on each selected solution along with links to our virtual booths in the EngageSpace Event! The AFWERX EngageSpace Challenges attracted over 800 solutions and featured over 50 space subject matter experts from the U.S. government to review the submissions. Throughout the event teams showcased virtual booth’s complete with video links, their challenge submission, digital brochures. The top 171 teams were invited to pitch their solutions to a panel of subject matter experts, followed by a Q&A from the evaluation team. The top 31 solutions from a total of 26 teams were then identified and invited to further engage with the Air Force with the hope of obtaining contracts. Orbit Logic is proud to have had its SpyMeSat Architecture chosen as an advancing AFWERX Challenge Solution in the DoD Commercial Space Partnerships category.
Orbit Logic specializes in mission planning, scheduling, and space situational awareness software. Orbit Logic's operationally proven software products create better plans faster with fewer resources, more insight, and less risk. Our highly configurable desktop, web, mobile, and onboard software supports analysis and operations for domains including aerial/satellite imaging and space/ground networking.
Orbit Logic specializes in mission planning, scheduling, and space situational awareness software. Orbit Logic's operationally proven software products create better plans faster with fewer resources, more insight, and less risk. Our highly configurable desktop, web, mobile, and onboard software supports analysis and operations for domains including aerial/satellite imaging and space/ground networking.
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SaFIRE-GEMS: Resilient Satellite Awareness and Autonomous Self-ProtectionSaFIRE-GEMS allows satellites to protect themselves using onboard autonomy that acts on a local Space Situational Awareness picture developed by the satellite itself – fusing local and available remote data sources to identify emerging conditions impacting satellite operations and responding to them in real-time. A primary example is the discovery and monitoring of Resident Space Objects predicted to become proximal to the satellite, and autonomously maneuvering to clear the condition (if appropriate) while continuing nominal mission roles with minimal disruption.
Our offering is a blend of capabilities called SaFIRE-GEMS (Satellite Fusion, Inference and Response Engine – Ground-Enhanced Modernization of the Spacecraft). Orbit Logic brings our onboard Autonomous Planning System (APS), a modular agent-based architecture employing receding time horizon planning and response-based decision-making to map appropriate actions and activities to the use of satellite-hosted resources. Barron-Associates brings algorithms integrated with APS to provide state and intent estimates of proximal Resident Space Objects and to determine satellite maneuvers to counter identified risks. Loft Orbital brings a system architecture (on the satellite and on the ground) with simplified plug-and-play sensors on the satellite and a robust approach to onboard autonomy to access sensors’ capabilities and satellite bus functions, and to interact with federated ground services and data sources over a highly-available space network. |
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SpyMeSat Mobile App for Satellite Imagery Awareness and AccessOrbit Logic is proud to have had its SpyMeSat Architecture chosen as an advancing AFWERX Challenge Solution in the DoD Commercial Space Partnerships category. The initial challenge received over 800 submissions. Of these, 171 advanced to showcase and private pitch sessions. Today, this group was further narrowed to just 31 advancing solutions - SpyMeSat included! SpyMeSat is a mobile app and associated server for improved satellite imagery access to the warfighter. SpyMeSat allows users in the field to receive imaging satellite overflight and imaging opportunity notifications for friendly, adversarial, and neutral imaging satellites, and provides on-demand mobile access to available commercial and DoD imagery archives. In addition, SpyMeSat allows users to make tasking requests for the collection of new imagery from taskable satellite assets.
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Fault Learning Agent for Prediction, Protection and Early Response (FLAPPER)The FLAPPER solution will be implemented as a Specialized Autonomous Planning Agent (SAPA) that expands our onboard Autonomous Planning System (APS) architecture to include Machine Learning (ML) capable of detecting, isolating, and mitigating anomalies in real- or near-real-time with minimal ground intervention. The system will utilize spacecraft telemetry to train the ML models to detect faults and link the corresponding responses based on novel telemetry limits, value trends and anomalous behavior.
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