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1
Innovative Partnerships Program (IPP)
“What can IPP do for you?”
Project Management Challenge 2007Team Building Blocks
February 6, 2007
2
Topics
• What is the Innovative Partnerships Program (IPP)?
• What does IPP do?
• How does IPP help programs and projects?
• How can I get IPP to help me?
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Agency Organization
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Innovative Partnerships Program (IPP)• IPP provides leveraged technology investments, dual-use technology-
related partnerships, and technology solutions for NASA.• IPP consists of the following program elements:
– Technology Infusion which includes the Small Business Innovative Research (SBIR)/Small Business Technology Transfer (STTR) Programs and the IPP Seed Fund;
– Innovation Incubator which includes activities such as Centennial Challenges and new efforts to facilitate purchase from services from the emerging commercial space sector; and
– Partnership Development which includes Intellectual Property management, Technology Transfer, and new innovative partnerships.
• IPP enables cost avoidance, and accelerates technology maturation. • IPP increases NASA's connection to emerging technologies in the
external communities, enables targeted positioning of NASA's technology portfolio in selected areas, and secure NASA's intellectual property to provide fair access and to support NASA's strategic goals.
• Dual-use partnerships and licensing create socio-economic benefits within the broader community through technology transfer.
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Policy and Statutory Authority for IPP• National Aeronautics and Space Act of 1958
• Bayh-Dole Act of 1980
• Stevenson-Wydler Technology Innovation Act of 1980
• Federal Technology Transfer Act of 1986
• Small Business Innovation Research Development Act of 1982
• NASA Authorization Act of 2005
• Several other statutes
• NASA 2006 Strategic Plan
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FY 2008 Budget Request
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IPP ThemesWhat are our primary roles?• Facilitator
– Bringing parties together, both inside and outside the agency.– Bridging communication gaps to improve the value we can provide
to the agency.• Catalyst
– Acting as a pathfinder for implementing new things – change agent.– Creating new partnerships.– Demonstrating effectiveness of new approaches and methods.
How do we approach an issue?• We are always seeking to add value towards Agency priorities and
objectives• Mindset must be
– “Yes” we can do this “if”“No” we
can’t do this “because”
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Partnership ModelOther…..
AcademiaNational Laboratories
Other Gov’t AgenciesIndustry
NASA Offerings
• $ Funding• Facilities use• Technology use• Expertise access• Brand Association• Product Validation• Space Env’t Access • Intellectual Property• Other…
Partner Offerings
• Technology • Services• Innovation• Expertise • Intell. Property• Outreach• $ Funding• Facilities• Other…
Partnership Mechanisms
• FAR Contracts• Comm’l Contracts• Grants• Coop Agreement• Space Act Agr• MOU• MOA• Licensing• Other• …
C. Incurred ‘Cost’ of offeringsD. Perceived ‘benefit’ to NASA
from partner offerings
Value of partnership to Partner = B/C
A. Incurred ‘Cost’ of offeringsB. Perceived ‘benefit’ to partner
from NASA offerings
Value of partnership to NASA = D/A
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Partnership Model – Value Proposition
No partnership potential
Standard partnership mechanism
Innovative partnerships
Value to Partner[perceived benefit to cost of partnership]
Valu
e to
NA
SA[p
erce
ived
ben
efit
to c
ost o
f par
tner
ship
]Low [Ben/Cost<1]
Moderate[Ben/Cost>1]
High[Ben/Cost>>1]
Low [Ben/Cost<1]
Moderate[Ben/Cost>1]
High[Ben/Cost>>1]
• IPP objective should be to maximize partnership value for both NASA and partner.
• Refer back to the partnership model for value and ask:– What impact will this aspect of the partnership have on value?– What are other opportunities to increase value?
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Innovative Partnerships Program Office
DirectorDeputy Director
Secretary
Technology InfusionSBIR/STTRSeed Fund
Innovation IncubatorEnterprise Engine
Centennial ChallengesNew Activities
Partnership Development
Technology TransferIntellectual Property
New Innovative Partnerships
Staff FunctionsResources ManagementAdministrative Officer
Chief TechnologistCommunications
ARC DFRC GRC GSFC JPL JSC KSC LaRC MSFC SSC
IPP Offices at each of NASA’s Field Centers
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SBIR/STTR: 3-Phase Program• PHASE I
– Feasibility study – $100K award– 6 months duration (SBIR) – 12 months duration (STTR)
• PHASE II– Technology Development– 2-Year Award – $750K (SBIR/STTR)
• PHASE III– Technology Infusion/Commercialization Stage– Use of non-SBIR Funds– Ability to award sole-source contracts without
JOFOC based on specific SBIR authority –NASA and NASA primes
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SBIR Programmatic Profile
* FY06 program Budget Awarded in FY07 (September 06)** FY07 President’s Budget Request
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STTR Programmatic Profile
* FY06 Budgeted Awards actually made in FY07 (September 06)** FY07 President’s Budget Request
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SBIR Transition• Focus on Technology Infusion• Work closely with Mission Directorates to incorporate SBIR
investments as an integral component of their technology roadmaps
• New Level III Centers will have key roles in performing this work with the Mission Directorates, providing a decision support and analysis role to help the Mission Directorates prioritize and make the best technology investment decisions.
• Proposed alignment is a hybrid approach with key relationships between Level III Centers and Mission Directorates, but also some crosscutting areas assigned to Level III Centers that require coordination and prioritization across multiple Mission Directorates.
GRC JPL ARC LaRC
ARMD SMD SOMD ESMD
Level III Ctr.
Mission Dir.Comm(SOMD/ESMD/SMD)
Smallsats(ESMD/SMD/SOMD)Human Life Sciences(ESMD/SOMD)
Crosscutting
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SBIR Technologies on Mars Exploration Rovers
Yardney Technical Products of Pawtucket, Connecticutdeveloped lithium ion batterieswith specific energy of >100Wh/kg and energy density of 240 Wh/l and long cycle life. Subsequently, they won a large Air Force/NASA contract to develop batteries for space applications. They are supplying the batteries for the 2003 Mars Rovers.
Maxwell Technologies of San Diego, California fabricated and tested an ASCII chip with single event latch up protection technology. Innovation enables the use of commercial chip technology in space missions, providing higher performance at a lower cost. Supplying A to D converter for Mars 2003 Rovers.
Starsys Research of Boulder, Coloradodeveloped several paraffin based heat switches that function autonomously. Heat switches control radiator for electronics package on Mars 2003 Rovers.
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NASA SBIR Contributions to the AURA Mission
Composite OpticsProvided light weight, large aperture reflector of graphite reinforced composite material with high surface accuracy for the MLS
DeMaria ElectroopticsUnder a $6.5 million contract with JPL, the company provided a terahertz radiometer for the MLS
SpaceborneThe company supplied two correlator chips that make the analog to digital signal conversion and clean up the signal received by MLS
SeaspaceCorporationDeveloped low cost system that makes it possible for universities and other purchasers to receive the data transmissions from AURA
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SBIR Technologies on Deep Impact Mission
Scimeasure Analytical SystemsThe highest quality images from a ground observatory were made possible by wave front sensor cameras from Scimeasure Analytical Systems. These cameras are keyto the adaptive optics at the Palomar Observatory where astronomers continue to track the consequences of the impact on comet Tempel 1.
Barr AssociatesProvided optical filters for filter wheels and a dichroic beam splitter located in mission instruments on the flyby spacecraft. These instruments gathered images that will be used to analyze the results of the material ejected by the impact and the crater created by the impact.
High Resolution InstrumentComposite Optics Provided three telescope structures constructed from light weight, thermally stable composite materials. The structures were for the medium and high resolution imaging instruments on the flyby spacecraft and the telescope (not shown) on the impactor.Medium Resolution Instrument
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Miniature Cryogenic Turboalternator(for Hubble Space Telescope)
INNOVATION• Developed miniature, high speed,
vibration free turboalternator
ACCOMPLISHMENTS• Creare, Inc of Hanover, NH developed
high speed shaft in cryogenic gas bearings; high precision, and automated miniature rotor fabrication techniques.
• Demonstrated operations at 50° Kelvin.• Successful installation and operation of
a 75° Kelvin cooler on Hubble Space Telescope NICMOS instrument.
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Phase III SBIR Contracting• Congress provided authority to allow funding of SBIR firms with
Phase III contracts on a sole-source basis without need for a JOFOC.
• Congress specifically intended that not only NASA, but prime contractors be able to easily utilize SBIR firms for subcontracts.
• The SBA’s SBIR Policy Guide indicates that: – “…Congress intends that agencies or…..Government prime
contractors that pursue R/R&D or production developed under the SBIR program, give preference, including sole source awards, to the awardee that developed the technology.”
• If an SBIR firm has a technology that is appropriate for use under a prime contract, the Prime can non-competitively award a subcontract and use the SBIR Phase III status as justification.
• The Policy Guide states “The competition for SBIR Phase I and Phase II awards satisfies any competition requirement of …the Competition in Contracting Act…..”
• This may simplify the documentation required for a subcontract and expedite award.
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IPP Seed Fund• The IPP Seed Fund has been established to enhance NASA’s
ability to meet Mission capability goals by providing leveraged funding to address technology barriers via cost-shared, joint-development partnerships.
• The IPP Office at NASA HQ provided a Seed Fund Announcement of Opportunity to all NASA centers and received 76 proposals.
• All Seed Fund proposals, to be executed over a period of one year, were developed through the collaboration of three principal partners: – a Partnership Manager (Center IPPO); – a Co-Principal Investigator (NASA Program or Project Office); and – an External Co-Principal Investigator (Private Sector, Academia,
Government Lab). • There were three principal criteria for selection:
– relevance and value to NASA Mission Directorates, – scientific/technical merit and feasibility, and – leveraging of resources.
• All proposals were reviewed by a HQ team of IPP and Mission Directorate experts, and 29 proposals were selected for funding.
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IPP Seed Fund• The technology landscape covered by the successful proposals
embraced the needs of all four of NASA’s Mission Directorates. • An additional highlight of the Seed Fund effort was the leveraging
of funds as a result of contributions from the three partners. – $6.6 million of IPP Office funds, – $7.5 million came from Program, Project, Center funds, and – $14.2 million came from External Partner funds.
• An investment of $6.6 million by IPP facilitated the generation of 29 partnerships and was leveraged by more than a factor of four, providing a total of $28.3 million for the advancement of critical technologies and capabilities for the Agency.
• The IPP Office plans to continue the Seed Fund with an annual process for selecting additional innovative partnerships for funding, to address the technology priorities of NASA’s Mission Directorates.
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Seed Fund TRL Advancement
0
1
2
3
4
5
6
7
8
9
10
TRL 1 TRL 2 TRL 3 TRL 4 TRL 5 TRL 6 TRL 7 TRL 8 TRL 9
Num
bers
of S
eed
Fund
Pro
ject
s
Current TRL
TRL Post-Seed Fund
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IPP Seed Fund – Proposals Selected
Mission Directorate Table
Center Proposal TitleIPP
$ (K) ARMD ESMD SMD SOMD
ARC Electronic Progonostics for Critical Avionics Systems $250
ARCIntegrating Sensor Suites and Rover Systems for Surface Prospecting: Enabling ISRU by Human-Robot Teams $250
ARCA Lunar Communication and Navigation Satellite Network Architecture--Internet Protocol, Lasers and Small Satellites $250
ARCConcept Study for the Application of Phase Diversity-Only Adaptive/Lightweight Optics to NASA Science Missions $250
DFRCThe Development and Investigation of the First Stage�Of a Highly Reliable Reusable Launch System $250
GRC Alternative Fuels for Next Generation Combustor Applications $250
GRCNew Lithium-ion Batteries with Enhanced Safety and Power Density for Future NASA and Aerospace Missions $250
GRCLunar Communications for Exploration Activities Inside Craters: Non-line of Sight Communication of the Moon without a Lunar Relay $250
GSFCInfusing Environmental Knowledge into Decision Support and Planning Tools for Exploration Mission Operations $242
GSFC Lightweight, Cryostable, Low-Cost Mirrors for the Next Generation of Space Telescopes $241GSFC Development of a Continuous ADR and Integrated Control Electronics $175GSFC Large Focal Plane Technology For Simultaneous Imaging and Guiding $250
JPL High Performance Amplifiers for Science Instruments $250JPL Joint Hardware in the Loop Solid Propulsion Landing System Demonstration $250JPL Real-time multi-mission autonomous onboard GN&C Instrument $400JSC Multi-Terrain Loader for Lunar Surface Requirements Development $250JSC Exploration/National Science Foundation (NSF) Habitat Field Demonstration $250KSC Self-Healing Wire Insulation - Preventing Wiring Failures $110KSC Cryo-TrackerØ Mass Gauging System Hardware and Flight Qualification Risk Reduction $250
LaRC Technologies for Cabin Noise Reduction $250
LaRCFour-Dimensional Flight Management to support the Next Generation Air Transportation System (NGATS) $250
LaRCInflatable Technologies Advancement: Aero Performance Testing of High-Mach Decelerators and Materials Development for Inflatable Aeroshells $250
LaRC Space Radiation Analysis Tool $150
LaRCRemote Sensing of Temperature and Pressure for Improved Retrievals of Atmospheric Constituents $250
MSFCValidation of Cryogenic Composite Over-Wrapped Pressure Vessels and All-Composite Cryogenic Tanks Suitable for use in New Launch Vehicles $250
MSFC Fiber Reinforced Urethane Foam Development $185
SSCGA-ISHM Root Cause Analysis Expansion Program- Intelligent Integrated System Health Management (I2SHM) $125
SSCPWR - Test-Stand and J2X Engine End-to-End Integrated System Health Management (ISHM) Capability $90
SSCASRC/PSU - Ground Operations Health Management (GOHM) - A Framework for Intelligent Integration of Technologies $165
Total IPP Funding $6,633 $1,250 $2,417 $2,066 $900
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NASA’s Connection to Prizes
Early European Aviation Prizes Led To The Creation of NACA• The progress of European aviation due to prizes and
competitions became troubling to US observers. • Dr. Albert F. Zahm, head of the revived Smithsonian
aeronautical laboratory originally founded by Samuel Pierpoint Langley, was dispatched to Europe along with Dr. Jerome C. Hunsaker of MIT to study the situation there.
• Zahm’s report, issued in 1914 emphasized the disparity between European progress and American inertia.
• The report led to the creation of the Advisory Committee for Aeronautics (later known as the National Advisory Committee for Aeronautics or NACA), the predecessor of NASA.
– Source: Bilstein, Orders of Magnitude A History of the NACA and NASA, 1915-1990, NASA SP-4406,National Aeronautics and Space Administration, Washington, DC, 1989.”
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How Do Prizes Benefit NASA?Increased Participation by New Sources of InnovationLeveraging of Tax-Payers’ DollarsInnovative Technology Development to Meet NASA’s NeedsIncreased Awareness of Science and TechnologyHands-on Training for Future Workforce
Increased Participation by New Sources of InnovationLeveraging of Tax-Payers’ DollarsInnovative Technology Development to Meet NASA’s NeedsIncreased Awareness of Science and TechnologyHands-on Training for Future Workforce
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CC Competitions in 2007
Competition Purses Comp. DateAstronaut Glove $250K April ’07Regolith Excavation $250K 12 May ’07
Beam Power $500K October ‘07Tether $500K October ’07Lunar Lander $2M October ’07
Personal Air Vehicle $250K 4-12 August ’07
MoonROx (possible) $250K Exp. June ’08
Personal Air Vehicle ChallengePersonal Air Vehicle Challenge
Regolith Excavation ChallengeRegolith Excavation Challenge
Lunar Lander ChallengeLunar Lander ChallengeMoonROx ChallengeMoonROx ChallengeAst
rona
ut G
love
Cha
lleng
eA
stro
naut
Glo
ve C
halle
nge
Tether ChallengeTether Challenge
Bea
m P
ower
Cha
lleng
eB
eam
Pow
er C
halle
nge
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Commercial Space• One of NASA’s six agency-level goals is to encourage appropriate
partnerships with the emerging commercial space sector. • The Innovative Partnerships Program (IPP) plays an important role – as
both facilitator and catalyst – towards achieving that NASA goal.• IPP has been tasked to fulfill the role of being a single point of entry into
NASA, for outside organizations seeking to partner with or provide services to NASA related to commercial space.
– In this role, IPP will be a facilitator, seeking to connect outside capabilities and interests with internal needs and interests at HQ and the Centers – the goal is to make it easier for outside organizations to partner and work with NASA.
• IPP has also been tasked to demonstrate the purchase of services from the emerging commercial space sector – for parabolic aircraft flight and suborbital flight – with those services to be used for microgravity research, technology development and training.
– IPP is working with NASA’s Shared Capability Assets Program (SCAP) and the Glenn Research Center (GRC), who are preparing a solicitation to establish an IDIQ contract for parabolic aircraft services.
– IPP will offer funds and seek leveraging through partnerships, to use this contractual mechanism and demonstrate the business model for purchasing services to support NASA’s research and technology needs.
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Innovation Transfusion• There is significant potential for NASA to learn and benefit from innovation
occurring outside the agency• Some potential is being realized on ad hoc basis across the agency• IPP proposes a focused activity to more strategically realize this potential
– Identify strategic areas of innovation that would benefit the agency– Identify target organizations to transfuse that innovation from– Identify key individuals with relevant expertise to participate
• Innovation Transfusion would have three components:– Innovation Ambassadors
• Assignment of NASA personnel to innovative orgs outside the agency to experience innovative practices first hand and bring that knowledge back to the agency
– Innovation Field Visits• Regular visits to innovative orgs, with focused objectives to exchange
ideas and practices in particular areas of innovation with strategic interest to NASA (e.g. Innovation Ambassador hosts)
– Agency Dissemination• Use existing communication mechanisms to disseminate lessons
learned and best practices to a broader agency audience
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Partnership Activities in FY06• During FY 2006, the Innovative Partnership Program (IPP) facilitated
many partnerships and agreements, as summarized below:– Over 200 partnerships with the private sector, federal and state
government, academia, and other entities for dual use technologydevelopment and reimbursable use of NASA facilities.
– Over 50 license agreements with private entities for commercial and quality of life applications of NASA developed technology.
– Reporting of more than 750 new technologies developed by NASA civil servants and contractors, and evaluation for patent protection.
– More than 400 agreements for commercial application of software developed by NASA.
• Technologies include biotechnology, chemicals, communications, computing, electronics, energy conversion, instrumentation, materials, optics, propulsion, and robotics.
• In addition to NASA mission relevance, public benefits are expected in agriculture, communications, energy conversion and use, environ-mental protection, health and medicine, information technology, machinery & manufacturing, and public safety.
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GPS Technology Transfer and Industry Partnership Sample of Return on Investment at JPL
NASA Seed Investment Tech Transfer/ Broad Benefits to NASAInvestment from Outside NASA
Mid 90’s: ~$0.5M total for software development
1995-2000: $0.5M/year from FAA to mature RTG, support WAAS.
• Real-Time GIPSY (RTG) software
2000-2002: $500K/year for a prototype
2001-present: ~$8M from industry and DoD for operational GDGPS System. Investment by Industry outside JPL in GDGPS-related infrastructure and services: ~ $20M
• Real time sea height from Jason-1• Free global access to GDGPS
corrections through Inmarsat($1M/year value)
• Real time airplane positioning enables UAV-SAR mission
• TDRSS Augmentation Service for Satellites (TASS) enabled
• Real-time atmospheric sensing from COSMIC constellation
Partnership highlights: Non-NASA funding,1996 - 2006: ~$20MSoftware royalties, 1996 - 2006: ~$5M; Awards: Space Technology Hall of Fame, 2003
• Global Differential GPS (GDGPS) System
1990’s: ~$0.5M/year for developing BlackJack receiver
• GPS science receiverIndustry provides BlackJack-based science receivers to Jason, ICESat,OSTM, COSMIC
Technology transfer to industry enabled low-cost, COTS receiver. Investment by industry ~$10M
RTG is NASA Software of the Year 2000; RTG powers GDGPS
Y. Bar-Sever, S. Lichten JPL. January 2007
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Spectral Imaging PartnershipsNASA Investment Tech Transfer/Partnerships Benefits to NASA
Airborne AVIRIS Imager Airborne Compact ImagerAirborne Compact Imager
• NASA selects advanced push broom, compact spectrometer (Moon Mineralology Mapper) for joint NASA/ISRO experiment
• Based on MaRS design
• 24 month build
• Launch in 2008
• NASA funded airborne whisk broom spectrometer
• Built in 1989 and operated through present
• Partnership with another agency to develop a new airborne spectrometer (MaRS)
• MaRS uses Offner and push broom design for improved performance metrics (radiometric precision, uniformity, simplicity, reliability)
• Partner provides $10M in funding to increase technology from TRL 3 to 7
• 24 month build
• Demonstrated in 2006
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Program and Project Benefits• This letter expresses my personal appreciation for the support that
your Innovative Partnerships Program Office (IPPO) has provided to the Exploration Launch Office (ELO) at the Marshall Space Flight Center (MSFC) during FY06.
• Thanks to the support, we have been able to attract external partners to work with us in advancing technologies that would otherwise not have been pursued. These technologies will certainly enhance our ability to meet the challenges we face in meeting the goals of the Agency.– Hardware Maturation and Cryogenic Testing of an Optical
Cryogenic Mass Flow Sensor– Magnetostrictive Regulator Development– Thermal Stir Welding (TSW) Development– Validation of Cryogenic-Composite Over-Wrapped Pressure
Vessels– Prototype Development and Technology Demonstration of
Apparatus for Reading Two-Dimensional Identification Symbols Using Visual and Sensing Technologies
Steve Cook, Manager, Exploration Launch Office
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Partnering with Other Agencies• Partnership with NIST
– Collaborate on advanced nanotechnology research, helping lead tofurther advancements in NASA missions
• Chemical sensors, biosensors, electronic devices and circuits, and architectures for electronics, health care, and other fields
– Grants NASA access to NIST’s $235 million nanotechnology research facilities
• What GSFC IPP Office Did– Identified NIST as a nano match for GSFC– Negotiated terms of agreement
“By having access to these state-of-the-art facilities and capabilities at NIST, Goddard can focus its resources on the validation of these miniaturized technologies to accelerate their maturity for space flight applications supporting scientific research and NASA’s vision for space exploration.” Peter Hughes, GSFC Chief Technologist
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Partnerships with Industry• Partnership with Lake Shore Cryotronics
– Company will manufacture GSFC-developed continuous adiabatic demagnetization refrigerator (ADR)
– Provides lower cost source for continuous ADRs than in-house manufacturing (Mars exploration, Constellation X)
• What GSFC IPP Office Did– Targeted technology for licensing that will lead to COTS product for
NASA– Promoted technology at partnership-development workshops and
conferences (Lake Shore connection)– Facilitated discussions between GSFC innovator and Lake Shore– Negotiated license– Additional development to advance TRL through Seed Fund
“The IPP Office was extremely helpful in identifying companies interested in licensing the ADR and then negotiating patent rights and other issues that allowed the licensing to go forward. And the Seed Fund award is coming at an ideal time. Without it, we would have had to shut down our work, which would have compromised future efforts and missions.” Peter Shirron, GSFC innovator
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Conclusion• IPP can provide benefits to NASA’s programs and
projects in many ways.• We’ve got a highly dedicated workforce at each of
the ten Field Centers wanting to help you.• How can you tap into this resource?
• IPP Website– http://www.ipp.nasa.gov/
• Contact the IPP Chief at your Field Center to follow up on any potential areas of interest.
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Center IPP Chiefs
Center Name Email PhoneARC Rich Pisarski rpisarski@mail.arc.nasa.gov (650) 604-0149DFRC Gregory Poteat greg.poteat@dfrc.nasa.gov (661) 276-3872GRC Kathy Needham Kathleen.K.Needham@nasa.gov (216) 433-2802GSFC Nona Cheeks Nona.K.Cheeks@nasa.gov (301) 286-8504JPL Ken Wolfenbarger james.k.wolfenbarger@nasa.gov (818) 354-3821JSC Michele Brekke michele.a.brekke@nasa.gov (281) 483-4614KSC Dave Makufka David.R.Makufka@nasa.gov (321) 867-6227LaRC Marty Waszak m.r.waszak@nasa.gov (757) 864-4015MSFC Jim Dowdy Jim.Dowdy@nasa.gov (256) 544-7604SSC John Bailey John.W.Bailey@nasa.gov (228) 688-1660
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