Science Operations Planning and Implementation for the OSIRIS-REx Mission, Part 2: Toolkit
2022 IEEE Aerospace Conference (AERO)(2022)
关键词
in house server-based data system,standardized pointing telemetry products,flight product testing,Python scripts,JIRA workflow,commercial off-the-shelf work management software,configuration-manage SPT scripts,git repositories,SPOCFlight,Web interface,Monte Carlo set analysis,Lockheed Martin,two-dimensional visualization,front-end interface,three-dimensional visualization,attitude profile,navigation uncertainty,spin state,Java mission-planning and analysis for remote sensing,rapid tactical planning timeline,asteroid (101955) Bennu,spacecraft operation team,flight rule,parsed text analysis,OSIRIS-REx science operation toolkit,commercial tool enhanced efficiency,flight product robustness,J-asteroid integrated commanding tool,spacecraft library,observation-specific sequencing,complex blocks,optical navigation imaging,instrument calibrations,instrument command blocks,data products,science data,event-driven system,reconstructed trajectory,plan stability,telemetry products,J-Asteroid plans,instrument pointing constraints,integrated spacecraft attitude profile,in-house tool,Activity Inspector,soft constraint checks,JPlanner2 calculated data volume,J-Asteroid delivery packages,Java-based tool,perturbed trajectories,flight rules,global Bennu shape model,instrument footprints,spacecraft scan patterns,instrument command sequencing,instrument systems,spacecraft trajectory,asteroid shape,J-Asteroid modeled ephemerides,mission design,geospatial information system,primary planning,rapid planning timeline,high-fidelity flight products,safe fidelity flight products,Implementation Team,Science Planning Team,optical navigation observations,OSIRIS-REx mission,science operation planning,IpT-generated flight products,SPT scripts,observation plans,onboard instrument sequences
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