NASA Suborbital Science Technology Roadmap Collaborative Systems for Mission Management

1. NASA Suborbital Science Technology Roadmap Collaborative Systems for Mission Management Technology Working Group December 13, 2007

2. CSMM technologies contribute • to three key capabilities (as well as numerous others) • Long range & endurance requires more complex mission planning, greater team coordination, and ability to process and understand larger amounts of data • Multi-ship (multi-sensor) ops requires more sophisticated planning and situational awareness • Support tools are broadly applicable to missions, and directly affect the two previous capabilities

3. Airborne Science Program Suborbital Technology Roadmap Planning and Scheduling TRL2 Rapid planning systems with verifiable, certificatable software suitable for use in the NAS Flightworthy anytime planners TRL4 Update plans in response to dynamic changes in objectives, constraints, sensor or vehicle health Real-time re-planning for contingency ops Goal statement: Capability Imrpovement TRL5 Bring spacecraft and planetary rover planning and scheduling tools to the suborbital science domain (key component in delivering an estimated 20% improvement in science return to MER mission) Mixed-initiative planning tools Mission planning and re-planning done iteratively by hand 2006 2008 2010 2012 2014 2016 2020

4. Airborne Science Program Suborbital Technology Roadmap Plan Execution Ubiquitous use of execution systems New mission concepts Integration onto payloads and aircraft Enables increased complexity and duration of missions Goal statement: Capability Imrpovement TRL5 Flexible, robust execution systems Increased autonomy of payloads, data processing systems, and UAVs Plans are largely executed manually 2006 2008 2010 2012 2014 2016 2020

5. Airborne Science Program Suborbital Technology Roadmap Decision Support Systems Advise mission personnel to assist in allocation, deconfliction of resources; optimally meet competing objectives Automated Strategic / Tactical advisor TRL3 “Anywhere” systems - DSS deployed on ubiquitous mobile platforms Provide lightweight access to subset of mission data, for SA, C2. Goal statement: Capability Imrpovement TRL6 4D visualization of plans and mission-related data Improve situational awareness before and during missions; provide integrated view of mission data during and after missions. Need volumetric rendering, improved handling of large data sets 2006 2008 2010 2012 2014 2016 2020

6. Proposed Technology Development • Focus on key gap that emerged from TWG and recent UAS mission experience (but directly applicable to manned a/c missions also) -- enables all three key capabilities, strong influence on others. • Mission Planning support systems for airborne science • Focused on operations in the National Airspace System • Leverages ongoing planning automation work in ARMD, ESMD, SMD • Develops capability that can be used in the near term, grown for the long term • Can use existing planner technology • Need to develop expressions of common goals and constraints, specific to airborne science missions • Need to develop user interface for specifying goals and constraints, and understanding (and modifying) plans that result • Estimate 1-2 year project to develop & deploy to a specific mission, ~$500K