Space Technology FY 2013

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Space Technology FY 2013 Dr. Mason Peck, Office of the Chief Technologist ASEB April 4, 2012 O f f i c e o f t h e C h i e f T e c h n o l o g i s t

Technology at NASA NASA pursues breakthrough technologies to expand our frontiers in aeronautics and space Advanced technologies are critical for accomplishing NASA s current missions, and today s technology investments are required for the bold missions of NASA s future These same investments benefit the United States economy through creation of new industries, products, services, scientific discoveries, and societal benefits NASA s basic and applied research programs span all of NASA s mission areas, and includes activities benefiting other government agencies and the Nation s aerospace industry. NASA is implementing a portfolio of broadly applicable Space Technology programs to take the best ideas of our nation s innovators from concept to flight 2

Office of the Chief Technologist Serves as Advisor to Administration Integrates Technology Investment Across the Agency Direct Technology Management and Budget Authority for the Space Technology Program Office of the Chief Technologist Leads Tech Transfer, Partnerships and Commercialization Activities Across the Agency Advocates Externally NASA s R&D Programs Demonstrates and Communicates Societal Impacts of NASA Technology Investments

Guiding Principles of the Space Technology Program OCT s Space Technology Program Advances broadly applicable technology to infuse solutions into applications for which there are multiple customers. Employs portfolio approach to capture the entire spectrum of technology readiness. Competitively selects research by academia, industry, and the NASA centers based on technical merit. Leverages the technology investments of our international, other government agency, academic and industrial partners. Coordinates with internal and external stakeholders, including academia, industry and other government agencies Results in new inventions, new capabilities and the creation of a pipeline of innovators aimed at serving future National needs Grows the Nation s innovation economy 4

The Ten Programs of Space Technology Early Stage Innovation Space Technology Research Fellowships & Grant Programs NASA Innovative Advanced Concepts (NIAC) Program Early Stage Innovation Center Innovation Fund Program Game Changing Technology Centennial Challenges Prize Program Small Business Innovation Research and Small Business Technology Transfer (SBIR/STTR) Program Game Changing Development Franklin Small Satellite Subsystem Technology Technology Capability Demonstrations Flight Opportunities Technology Demonstration Missions Edison Small Satellite Demonstration Missions 5

Space Technology FY 2013 President's Budget Request 6

NRC Report on NASA s Space Technology Roadmaps The NRC study was released on February 1. It is a comprehensive report with important observations, analyses and priorities, including Currently, available technology is insufficient to accomplish many upcoming missions in Earth orbit and beyond. Success in executing future NASA space missions will depend on advanced technology developments that should already be underway. NASA's technology base is largely depleted. So, revitalizing technology investment at NASA is required if NASA is to achieve the challenges before it. Technological breakthroughs have been the foundation of virtually every NASA success. In addition, technological advances have yielded benefits far beyond space itself in down-to- Earth applications. Future U.S. leadership in space requires a foundation of sustained technology advances. The NRC concurs with the design of NASA s new Space Technology Program, with its cross cutting technology projects that span a range of technical maturity and include flight demonstrations. The NRC study emphasized 16 high-priority technology areas. NASA is currently investing in all 16 at some level. This assessment will help guide NASA s technology investment priorities in the years to come, working across the agency to address the findings. 7

Strategic Perspectives and Process What NASA could do Draft ST Roadmaps: 140 technical challenges (10 per roadmap) 320 technologies 20 year horizon What NASA should do NRC ST Roadmaps Study: Gives priority to: 100 top technical challenges 83 high priority technologies (roadmap-specific) 16 highest of high technologies (looking across all roadmaps) Immediate 5 year horizon What NASA is doing Updated ST Roadmaps: Incorporate NRC Study Results Update with Mission Plans and Technological Developments Internal Assessment to create Strategic Plan: Compare to Current Investments Compare to Current Plans Analyze Gaps What NASA will do Implement NASA Technology Portfolio Investments Technology Developments (across full TRL spectrum) Flight Demonstrations Must reflect: Affordability Technical Progress and Performance Mission Needs and Commitments Stakeholder Guidance 8

Strategic Perspectives and Process NASA Strategic Plan Strategic Technology-Investment Plan NASA s Current Technology Investments MD Technology Priorities Budget Constraints Center Capabilities/Facilities HEOMD NASA Space Technology Roadmaps SMD NRC Roadmap Analysis & Priorities and Other Govt. Agency Partnership Opportunities STP DoD NRL FAA NRO Space Command DoE AFRL 9

Big Nine Projects 10

Big 9 FY 2012 Milestones Composite Cryotank Tech and Demo Hypersonic Inflatable Aerodynamic Decelerators Human Robotic Systems Projects FY 2012 Oct-11 Nov-11 Dec-11 Jan-12 Feb-12 Mar-12 Apr-12 May-12 Jun-12 Jul-12 IRVE-3 Delta CDR System s Integrate Software on Rover NFAC s PDR MRR KDP-E Launch Complete Design Drawings Build-to-Print Fab. Complete Complete Rover Cannon Assembly Develop 2m-Tank Fab. and Deliver to MSFC Wind Tunnel Aug-12 2m Pressure Tank LCAT Sept-12 Develop 5m Demo. Unit Wind Tunnel Multiple s Low Density Supersonic Decelerators SDV 1 PDR SDV 2 KDP-C SDV 3 CDR Deep Space Atomic Clock SRR KDP-B Mission Capable Solar Sail Cryogenic Propellant Storage and Transfer SRR MDR Tubes Sail Mechanism MCR KDP-A PDR Laser Comm. Relay Demo. MCR Key KDP Launch SRR Robotic Satellite Servicing RFI Released RFI Complete RRM OPS Workshop ing Development Review Critical Event

www.nasa.gov/oct O f f i c e o f t h e C h i e f T e c h n o l o g i s t

Acronyms CDR Critical Design Review Comm. Communications Demo. Demonstration DVT Design Verification Fab. Fabrication KDP Key Decision Point LCAT Large Core Arc Tunnel M Meter MCR Mission Control Review MRR Mission Readiness Review MSFC Marshall Space Flight Center NFAC National Full-Scale Aerodynamics Complex PDR Preliminary Design Review RFI Request For Information RRM Robotic Refueling Mission SRR Systems Requirements Review TBD To Be Determined Tech. Technologies

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