Michael M. Reischman Deputy Assistant Director Directorate for Engineering Presentation for the...
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Michael M. ReischmanDeputy Assistant Director
Directorate for Engineering
Presentation for the University of VermontSeptember 28, 2007
WWW.NSF.GOV
Engineering at the National Science Foundation
Independent Agencies
MajorDepartments
Energy
Agriculture Commerce Defense
Health and Human Services
Interior Transportation
Office of Management and Budget
Science Advisor, Office of Science and Technology Policy
Other Boards andCouncils
NationalAeronauticand Space
Administration
EnvironmentalProtection
Agency
NuclearRegulatory
Commission
SmithsonianInstitution
OtherAgencies
NationalScience
Foundation(NSF)
Staff Offices
HomelandSecurity
OSTP/OMB 2008Research Priorities*
• Homeland Security
– Prevention, Detection, & Remediation of NCB Threats
– Medical Countermeasures and Biosurveillance Networks
• Energy Security
– Diversified Energy Sources and Renewables
• Advanced Networking and High-End Computing
– Supercomputing & Cyberinfrastructure
• National Nanotechnology Institute
• Environment
– Global Climate Change Science and Technology
– Global Supply of Fresh Water
• Understanding Complex Biological Systems
*See www.ostp.gov/html/M-06-17.pdf
External Reports• The National Academies’ Rising Above the
Gathering Storm: Energizing and Employing America for a Brighter Economic Future recommends enhancements in– K-12 education– Research– Higher Education– Economic policy
• The Engineer of 2020 (NAE, 2004) and Educating the Engineer of 2020 (NAE, 2005) asks “… how to enrich and broaden engineering education so that those technically grounded graduates will be better prepared to work in a constantly changing global economy.”
External Reports• Engineering Research and America’s Future (NAE,
2005): Committee to Assess the Capacity of the U.S. Engineering Research Enterprise– Recommends increased research support for
engineering and physical sciences– Seeks enhanced partnership, infrastructure and
workforce activities
• Innovate America: National Innovation Initiative Final Report (Council on Competitiveness, 2005)– Recommends increased support for workforce,
investments and infrastructure– Emphasizes importance of frontier and
interdisciplinary research
American Competitiveness Initiative
• The centerpiece of American Competitiveness Initiative (ACI) is to double the federal investment in key agencies that support basic research in physical sciences and engineering.
• Over the next 10 years, the Federal agencies impacted are NSF, DOE Science, and NIST.
• ACI includes three broad components:– Research in physical sciences and engineering (including 12
specific goals with 7 related to NSF)– Research and Development tax incentives– Education and workforce
National Science FoundationFY 07 Budget ($6,020 million)FY 07 Budget ($6,020 million)
Office of the
Inspector General
Director
National Science Board
Staff Offices
Directorate forComputer andInformation Science and Engineering
$527M
IntegrativeActivities(MRI, STC)
$131M
Directorate for
Engineering
$520M +$109M (SBIR)
Directorate for
BiologicalSciences
$608M
Directoratefor
Geosciences
$745M
Directorate forEducation and
HumanResources
$816M
Polarand
AntarcticPrograms
$371M
Directorate forMathematicaland Physical
Sciences
$1150M
Directorate forSocial,
Behavioral,and Economic
Sciences
$214M
$4,666M R&RA
$240M MREFC
$816M EHR
$6020M Total
Summary
DirectorateFY 2006
ActualFY 2007Request
FY 2008Request
FY 2008 Request
Change over FY 2006 Actual
Change overFY 2007 Request
Amt % Amt %
BIO $580.90 $607.85 $633.00 $52.10 9.0% $25.15 4.1%
CISE $496.35 526.69 574.00 77.65 15.6% 47.31 9.0%
ENG (less SBIR/STTR) $486.01 519.67 566.89 80.50 16.6% 47.22 9.1%
SBIR/STTR $99.45 108.88 116.41 17.34 17.5% 7.53 6.9%
GEO $703.95 744.85 792.00 88.05 12.5% 47.15 6.3%
MPS $1,086.61 1,150.30 1,253.00 166.39 15.3% 102.70 8.9%
SBE $201.23 213.76 222.00 20.78 10.3% 8.24 3.9%
OCI $127.14 182.42 200.00 72.86 57.3% 17.58 9.6%
OISE $42.61 40.61 45.00 2.39 5.6% 4.39 10.8%
OPP $390.54 438.10 464.90 74.37 19.0% 26.80 6.1%
IA $233.30 231.37 263.00 29.70 12.7% 31.63 13.7%
U.S. Arctic Research
Commission $1.17 $1.45 $1.49 0.32 27.4% 0.04 2.8%
Research & Related Activities $4,449.25 $4,765.95 $5,131.69 $682.44 15.3% $365.74 7.7%
NSF Budget by Research DirectorateDollars in Millions
ENG and SBIR/STTR Budget HistoryDollars in Millions
$0
$100
$200
$300
$400
$500
$600
FY 2000 FY 2001 FY 2002 FY 2003 FY 2004 FY 2005 FY 2006 FY 2007Request
FY 2008Request
ENG SBIR/STTR
Emerging Frontiers in Research and Innovation
(EFRI) $25M
Chemical, Bioengineering,Environmental, And Transport
Systems(CBET)
$124M
Civil, Mechanical, and
ManufacturingInnovation
(CMMI)
$152M
Electrical, Communications
and Cyber Systems(ECCS)
$81M
EngineeringEducation and
Centers(EEC)
$126M
IndustrialInnovation andPartnerships
(IIP)
$120M
Directorate for EngineeringFY 2007
Office of the Assistant DirectorDeputy Assistant Director
(OAD) $629M*
Office of the Assistant DirectorDeputy Assistant Director
(OAD) $629M*
Senior AdvisorNanotechnologySenior Advisor
Nanotechnology
Engineering FY 2008 Budget RequestDollars in Millions
Change
over
FY 2006 FY 2007 FY 2008 FY 2007Request
Actual Request Request Amt %CBET $125.09 $124.44 $144.97 $20.53 16.5%
CMMI 148.82 152.16 174.08 21.92 14.4%
ECCS 77.91 80.90 93.96 13.06 16.1%
IIP 109.65 120.08 128.39 8.31 6.9%
Small Business Innovation Research (SBIR) 99.45 108.88 116.41 7.53 6.9%
EEC 123.99 125.97 116.90 -9.07 -7.2%
EFRI - 25.00 25.00 - -
Total, ENG $585.46 $628.55 $683.30 $54.75 8.7%
(Totals may not add due to rounding.)
ENG and NSF Funding RatesResearch Grants
EN
G P
rop
os a
l s a
nd
Aw
ard
sF
un
din
g R
ate Percen
t
0
1000
2000
3000
4000
5000
6000
7000
FY 2000 FY 2001 FY 2002 FY 2003 FY 2004 FY 2005 FY 2006 FY 2007Request
FY 2008Projection
0%
5%
10%
15%
20%
25%
30%
35%
ENG Proposals ENG Awards ENG Funding Rate NSF Funding Rate
ENG Research Themes
• Energy, Water, and the Environment • System Nanotechnology • Complexity in Engineered and Biological
Systems • Competitive Manufacturing and Service
Enterprises• Cognitive Engineering
Chemical, Biochemical, and Biotechnology
Systems
Chemical, Biochemical, and Biotechnology
Systems
Biomedical Engineering and
EngineeringHealthcare
Biomedical Engineering and
EngineeringHealthcare
Transport andThermal FluidsTransport andThermal Fluids
Process and Bioreaction EngineeringMaria Burka
Process and Bioreaction EngineeringMaria Burka
Catalysis andBiocatalysis
John Regalbuto
Catalysis andBiocatalysis
John Regalbuto
EnvironmentalEngineering and
Sustainability
EnvironmentalEngineering and
Sustainability
Chemical, Bioengineering, Environmental, and Transport Systems (CBET)
Biotechnology, Biochemical, and
Biomass EngineeringFred Heineken
Biotechnology, Biochemical, and
Biomass EngineeringFred Heineken
Chemical andBiological Separations
Rose Wesson
Chemical andBiological Separations
Rose Wesson
Thermal Transport Processes
Pat Phelan
Thermal Transport Processes
Pat Phelan
Interfacial Processes And Thermodynamics
Bob Wellek
Interfacial Processes And Thermodynamics
Bob Wellek
Particulate andMultiphase Processes
Marc Ingber
Particulate andMultiphase Processes
Marc Ingber
Fluid Dynamics Bill Schultz
Fluid Dynamics Bill Schultz
Combustion, Fire, andPlasma SystemsPhil Westmoreland
Combustion, Fire, andPlasma SystemsPhil Westmoreland
Research to Aid Persons
With DisabilitiesBob Jaeger
Research to Aid Persons
With DisabilitiesBob Jaeger
Biomedical Engineering
Semahat Demir
Biomedical Engineering
Semahat Demir
Biophotonics, Advanced Imaging &Sensing for Human
HealthLeon Esterowitz
Biophotonics, Advanced Imaging &Sensing for Human
HealthLeon Esterowitz
EnvironmentalEngineering
Vacant
EnvironmentalEngineering
Vacant
EnvironmentalTechnologyCindy Ekstein
EnvironmentalTechnologyCindy Ekstein
Energy forSustainabilityRose Wesson/
Trung Van Nguyen
Energy forSustainabilityRose Wesson/
Trung Van Nguyen
EnvironmentalSustainability
Bruce Hamilton
EnvironmentalSustainability
Bruce Hamilton
Division DirectorJudy Raper
Division DirectorJudy Raper
Deputy Division DirectorBob Wellek
Deputy Division DirectorBob Wellek
Senior AdvisorMarshall Lih
Senior AdvisorMarshall Lih
Chemical, Bioengineering, Environmental and Transport (CBET) Systems
• Current Areas of Interest:– postgenomic engineering, metabolic engineering, and tissue
engineering. – biomedical photonics and sensing, assistive technology, medical
technology innovation– complex environmental systems, especially with respect to
understanding the fate and transport of surface and groundwater pollutants; novel processes for waste treatment; industrial ecology; and technologies for avoiding pollution
– projects that develop and integrate new principles and knowledge underpinning use-inspired products and services based on chemical, fluid-thermal and biological transformations of energy and matter.
– nanoscale science and engineering, safety and security, environmentally-friendly and energy-focused processes and products, and smart manufacturing and processing.
– Fundamental aspects of fluid, thermal and mass transport processes, and research to support the development of renewable energy sources.
Civil, Mechanical, and Manufacturing Innovation (CMMI)
EngineeringInfrastructure
Systems
EngineeringInfrastructure
Systems
Innovation Sciencesand DecisionEngineering
Innovation Sciencesand DecisionEngineering
Division DirectorAdnan Akay
Deputy DirectorGeorge Hazelrigg
Division DirectorAdnan Akay
Deputy DirectorGeorge Hazelrigg
Information Technology And Infrastructure Systems
Edward Jaselskis
Information Technology And Infrastructure Systems
Edward Jaselskis
Geoenvironmental Engineering and Geohazards Mitigation
Richard Fragaszy
Geoenvironmental Engineering and Geohazards Mitigation
Richard Fragaszy
Manufacturing Machines and Equipment
George Hazelrigg
Manufacturing Machines and Equipment
George Hazelrigg
Structural Systems and Hazards Mitigation
of StructuresDouglas Foutch
Structural Systems and Hazards Mitigation
of StructuresDouglas Foutch
Infrastructure Management
and Hazard ResponseDennis Wenger
Infrastructure Management
and Hazard ResponseDennis Wenger
Network for Earthquake Engineering Simulation
ResearchJoy Pauschke
Network for Earthquake Engineering Simulation
ResearchJoy Pauschke
Control SystemsSuhada JayasuriyaControl Systems
Suhada Jayasuriya
Dynamical SystemsEdward Misawa
Dynamical SystemsEdward Misawa
Engineering DesignJudy Vance
Engineering DesignJudy Vance
Manufacturing Enterprise Systems
Abhi Deshmukh
Manufacturing Enterprise Systems
Abhi Deshmukh
Operations ResearchStephen Nash
Operations ResearchStephen Nash
Service EnterpriseEngineering
Matthew Realff
Service EnterpriseEngineering
Matthew Realff
Sensor Innovationand SystemsShih Chi Liu
Sensor Innovationand SystemsShih Chi Liu
Geomechanics and Geotechnical Systems
Richard Fragaszy
Geomechanics and Geotechnical Systems
Richard Fragaszy
Infrastructure Materials And Structural Mechanics
Perumalsamy Balaguru
Infrastructure Materials And Structural Mechanics
Perumalsamy Balaguru
Materials Processing and Manufacturing
Mary L. Realff
Materials Processing and Manufacturing
Mary L. Realff
Mechanics and Structures of Materials
Ken Chong
Mechanics and Structures of Materials
Ken Chong
Nano and Bio MechanicsJimmy Hsia
Nano and Bio MechanicsJimmy Hsia
Materials Transformation and Mechanics
Materials Transformation and Mechanics
NanoManufacturingHaris Doumanidis
NanoManufacturingHaris Doumanidis
Materials Design and Surface Engineering
Clark Cooper
Materials Design and Surface Engineering
Clark Cooper
Civil, Mechanical, and Manufacturing Innovation (CMMI)
• CMMI areas of interest:– Dynamics and control, mechanics and materials, nano and bio
mechanics, sensing for civil and mechanical systems, simulation–based engineering science.
– Management of risks induced by earthquakes and other natural and technological hazards, critical infrastructure protection.
– Infrastructure development and management, geotechnology, structures
– CMMI supports fundamental academic research in design, manufacturing, and industrial engineering. CMMI also manages crosscutting industrial innovation programs that encompass major components of NSF.
– CMMI-funded research includes an emphasis on environmentally benign manufacturing and a sustainable industrial economy, and seeks to address those fundamental issues that will benefit society through a deeper understanding of the processes and systems that comprise modern design, manufacturing, and service enterprises
Electrical, Communications and Cyber Systems (ECCS)
Division DirectorUsha Varshney
Senior Engineering AdvisorLawrence Goldberg
NNIN; ENG-MRI; STC
Electronics, Photonics and Device Technologies
Power, Controls and Adaptive Networks
Integrative, Hybrid and Complex Systems
Optoelectronics; Nanophotonics; Ultrafast and Extreme Ultra-VioletRongqing Hui
Micro/Nanoelectronics; Bioelectronics; NEMS/MEMS; SensorsRajinder Khosla
Micro/Nanoelectronics; Molecular Electronics; Spin Electronics; Organic Electronics; Micromagnetics; Power Electronics Olufemi Olowolafe
Embedded, Distributed and Adaptive Control; Sensing and Imaging Networks; Systems Theory; TeleroboticsRadhakisan Baheti
Power and Energy Systems and Networks; Interdependencies of Power and Energy on Critical Infrastructures; Power Drives; Renewable and Alternative Energy SourcesDagmar Niebur
Adaptive Dynamic Programming; Neuromorphic Engineering; Quantum and Molecular Modeling and Simulations of Devices and SystemsPaul Werbos
RF and Optical Wireless and Hybrid Communications Systems; Inter and Intra-chip Communications ; Mixed Signals Leda Lunardi
Cyber Systms; Signal ProcessingScott Midkiff
Micro and Nano Systems; System-on-a-chip; System-in-a-Package; Diagnostic and Implantable Systems Yogesh Gianchandani
Electrical, Communications and Cyber Systems (ECCS)
Nanosystems, Microsystems, MacrosystemsCyber Systems
Signal ProcessingNano and Microsystems
System-on-a-chipSystem-in-a-package
RF and Optical Wireless and Hybrid Communications Systems
Inter and Intra-chip CommunicationsMixed Signals
BioelectronicsElectromagneticsFlexible ElectronicsMEMS/NEMSMicro/NanoelectronicsMicro/NanomagneticsMicrowave PhotonicsMolecular ElectronicsNanophotonicsOptoelectronicsPower ElectronicsSensors and ActuatorsSpin Electronics
Electronics, Photonics andDevice Technologies
EPDT
Integrative, Hybrid and Complex Systems
IHCS
Power, Controls and Adaptive Networks
PCAN Adaptive Dynamic
Programming Alternate Energy Sources Embedded, Distributed and
Adaptive Control Neuromorphic Engineering Power and Energy Systems &
Networks Quantum and Molecular
Modeling & Simulation of Devices and Systems
Sensing and Imaging Networks
Telerobotics
Emerging Technologies (ECCS)
Cyber Systems
Alternate Energy Sources and Integration in the National Grid (InterGrid)
Diagnostic, Wearable and Implantable Devices and Systems
Flexible Electronics
Neuromorphic Engineering
Interdependencies of Critical Infrastructures in Power and
Communications
Quantum and Molecular Modeling and Simulation of Devices and Systems
Very Large-scale Photonic Integration
Engineering Education and Centers (EEC)
Deputy DirectorFor Engineering
Centers Lynn Preston
Deputy DirectorFor Engineering
Centers Lynn Preston
Deputy Directorfor Engineering
EducationSue Kemnitzer
Deputy Directorfor Engineering
EducationSue Kemnitzer
ResearchExperiences for
Teachers Mary Poats
ResearchExperiences for
Teachers Mary Poats
Research Experience for
UndergradsEsther Bolding
Research Experience for
UndergradsEsther Bolding
Division DirectorAllen Soyster
Division DirectorAllen Soyster
Bioengineering Barbara Kenny
Bioengineering Barbara Kenny
Manufacturing and Processing
Bruce Kramer
Manufacturing and Processing
Bruce Kramer
EarthquakeEngineering
Vilas Mujumdar
EarthquakeEngineering
Vilas Mujumdar
Microelectronics Systems andInformation
Deborah Jackson (lead)Barbara Kenny
Microelectronics Systems andInformation
Deborah Jackson (lead)Barbara Kenny
EngineeringEducation
Sue Kemnitzer (lead)Vacant
Sharon Middledorf
EngineeringEducation
Sue Kemnitzer (lead)Vacant
Sharon Middledorf
NanotechnologyUndergraduate
Education Mary Poats
NanotechnologyUndergraduate
Education Mary Poats
Nanoscale Scienceand Engineering
Bruce Kramer (lead)Deborah Jackson
Barbara Kenny
Nanoscale Scienceand Engineering
Bruce Kramer (lead)Deborah Jackson
Barbara Kenny
ERC Education Win Aung
ERC Education Win Aung
Evaluation andAssessment
Vacant
Evaluation andAssessment
Vacant
Bioengineering &Bioinformatics
Summer InstitutesMary Poats
Bioengineering &Bioinformatics
Summer InstitutesMary Poats
SeniorAdvisor forEngineeringBruce Kramer
SeniorAdvisor forEngineeringBruce Kramer
AdministrativeOfficer
Priscilla Bezdek
AdministrativeOfficer
Priscilla Bezdek
Senior StaffAssociateWin Aung
Senior StaffAssociateWin Aung
ERC DiversityAnd Pre-College
EducationMary Poats
ERC DiversityAnd Pre-College
EducationMary Poats
InternationalResearch and Education inEngineering
Win Aung
InternationalResearch and Education inEngineering
Win Aung
Cross-DirectoratePrograms
Sharon Middledorf
Cross-DirectoratePrograms
Sharon MiddledorfManagementOperationsSpecialist
Beverly Baker
ManagementOperationsSpecialist
Beverly Baker
OfficeAutomation
Clerkvacant
OfficeAutomation
Clerkvacant
ProgramAssistants
Darlene Suggs(lead)
Shalika WaltonSusan Watson
ProgramAssistants
Darlene Suggs(lead)
Shalika WaltonSusan Watson
ScienceAssistant
VictoriaKwasiborski
ScienceAssistant
VictoriaKwasiborski
)
Engineering Education and Centers (EEC)
• Current Areas of Interest:– Centers that collaborate with industry to
promote innovative research and education – Centers that promote partnerships with small
business and international researchers – Focused efforts that integrate research into
new advances in undergraduate and PhD engineering education, and partner with K-12 pipeline innovators
Industry UniversityCooperative
Research CentersAlex Schwarzkopf
Edward ClancyGlenn Larsen
Industry UniversityCooperative
Research CentersAlex Schwarzkopf
Edward ClancyGlenn Larsen
Partnerships for Innovation
Sara Nerlove
Partnerships for Innovation
Sara Nerlove
Grants Opportunitiesfor AcademicLiaison With
IndustryDonald Senich
Grants Opportunitiesfor AcademicLiaison With
IndustryDonald Senich
Office of IndustrialInnovationSBIR/STTR
Office of IndustrialInnovationSBIR/STTR
Industrial Innovation and Partnerships (IIP)
Division DirectorKesh Narayanan
Division DirectorKesh Narayanan
• Advanced Electronics (4)• Advanced Manufacturing (3)• Advanced Materials (7)• Biotechnology (4)• Civil Infrastructure Systems (3)• Energy and the Environment (5)• Fabrication and Processing Technology (7)• Health and Safety (4)• Information and Communications (6)• Quality, Reliability and Maintenance (2)• System Design and Simulation (1)
• Advanced Electronics (4)• Advanced Manufacturing (3)• Advanced Materials (7)• Biotechnology (4)• Civil Infrastructure Systems (3)• Energy and the Environment (5)• Fabrication and Processing Technology (7)• Health and Safety (4)• Information and Communications (6)• Quality, Reliability and Maintenance (2)• System Design and Simulation (1)
• Advanced Materials. Manufacturing and Chemical Technology Cheryl Albus, Deepak Bhat, Rathindra DasGupta, Joe Hennessey• Biotechnology Thomas Allnutt, Ali Andalibi, George Vermont•Electronics Juan Figueroa, Murali Nair, Bill Haines, T. James Rudd• Information Technology Errol Arkilic, Ian Bennett• Special Topics Bob Norwood
• Advanced Materials. Manufacturing and Chemical Technology Cheryl Albus, Deepak Bhat, Rathindra DasGupta, Joe Hennessey• Biotechnology Thomas Allnutt, Ali Andalibi, George Vermont•Electronics Juan Figueroa, Murali Nair, Bill Haines, T. James Rudd• Information Technology Errol Arkilic, Ian Bennett• Special Topics Bob Norwood
Senior AdvisorsJoe HennesseyDonald Senich
Senior AdvisorsJoe HennesseyDonald Senich
Industrial Innovation and Partnerships (IIP)
Current Programs supporting academic-industry partnerships - Small Business Innovation Research (SBIR) - Small Business Technology Transfer Research (STTR) - Industry/University Cooperative Research Centers (I/UCRC) - Partnerships for Innovation (PFI) - Grant Opportunities for Academic Liaison with Industry (GOALI)IIP supports a wide spectrum of Technology Areas - Advanced Materials - Manufacturing - Civil Infrastructure Systems - Chemical-Based Technologies - Energy and Environment - Biotechnology - Electronics - Information-Based Technologies
Emerging Frontiers in Research and Innovation (EFRI)
• EFRI will support higher risk, higher payoff opportunities leading to: – new research areas for NSF, ENG, and other agencies – new industries/capabilities resulting in a leadership
position– significant progress on advancing a “grand challenge”
• Successful topics would likely require:– small- to medium-sized interdisciplinary teams– the necessary time to demonstrate substantial
progress and evidence for follow-on funding through other established mechanisms
• The current investment for EFRI totals $25 million for 4-year awards at $500k per year.
• Sohi Rastegar, Office Director
EFRI Criteria
• TRANSFORMATIVE- Does the proposed topic represent an opportunity for a significant leap or paradigm shift in a research area, or have the potential to create a new research area?
• NATIONAL NEED/GRAND CHALLENGE- Is there potential for making significant progress on a current national need or grand challenge?
• BEYOND ONE DIVISION- Is the financial and research scope beyond the capabilities of one division?
• COMMUNITY RESPONSE- Is the community able to organize and effectively respond (but not in very large numbers; i.e., it is an "emerging" area)?
• ENG LEADERSHIP- Are partnerships proposed, and if so, does NSF/ENG have a lead role?
EFRI Topics FY 2007 (NSF 06-596)
• AUTONOMOUSLY RECONFIGURABLE ENGINEERED SYSTEMS ENABLED BY CYBERINFRASTRUCTURE (ARES)
– Key idea: Autonomously reconfigurable engineered systems robust to unexpected/unplanned events
• CELLULAR AND BIOMOLECULAR ENGINEERING (CBE)
– Key idea: Comprehensive modeling, measurement, and control of coupled biological, chemical, electrical, mechanical, and thermal processes at the cellular and biomolecular level under multiple stimuli.
FY 2008 (NSF 07-579)• COGNITIVE OPTIMIZATION AND PREDICTION: FROM NEURAL
SYSTEMS TO NEUROTECHNOLOGY (COPN)
- Key idea: Understanding subsymbolic intelligence can lead to development of new designs and algorithms for optimal decision making and prediction in engineered systems.
• RESILIENT AND SUSTAINABLE INFRASTRUCTURES (RESIN)
– Key idea: Design, renew, expand, monitor, and control critical interdependent infrastructures to be both resilient and sustainable.
Free Advice for Success…or(I’m from the government and I’m here to help)
• It all starts with Dialog, a White Paper and a Short Bio
• Get involved in NSF Reviews: Panel or Mail• Don’t be afraid of Teams• Spread Your Research Wings• Deliver on Your Promises• “No” is not Forever…Seek Feedback• “….don’t ever give up”
Thank you!