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Funding Opportunities and Proposal-Writing Strategies for Social and Behavioral Science Research at the National Science Foundation. Thomas J. Baerwald Senior Science Advisor Division of Behavioral and Cognitive Sciences February 8, 2013. - PowerPoint PPT PresentationTRANSCRIPT
Funding Opportunities and Proposal-Writing Strategies for Social and Behavioral Science
Research at the National Science Foundation
Thomas J. BaerwaldSenior Science Advisor
Division of Behavioral and Cognitive SciencesFebruary 8, 2013
NSF Is an Independent Agency of the Executive Branch of the U.S.
Government
Th e P res id en to f th e
U n ited S ta tes
Office ofManagementand Budget
Agriculture H ealth &Human Services
Interior
NationalScience
Foundation
NationalAeronautic
& SpaceAdministration
EnvironmentalProtection
Agency
SmithsonianInstitution
NuclearR egulatory
Commission
OtherAgencies
Transportation D efense Energy Commerce
Science AdvisorOffice of
Science &Technology Policy
Other B oards,Councils, Etc.
Cabinet Departments
Independent Agencies
The NSF Mission• To promote the progress of science• To advance the national health, prosperity,
and welfare• To secure the national defense
NSF envisions a nation that capitalizes on new concepts in science and engineering and provides global leadership in advancing research and education.
The NSF Vision
Strategic and Performance Goals - 1• Transform the Frontiers emphasizes the
seamless integration of research and education as well as the close coupling of research infrastructure and discovery.– Make investments that lead to emerging new fields of
science and engineering and shifts in existing fields.– Prepare and engage a diverse STEM workforce
motivated to participate at the frontiers.– Keep the United States globally competitive at the
frontiers of knowledge by increasing international partnerships and collaborations.
– Enhance research infrastructure and promote data access to support researchers' and educators' capabilities and enable transformation at the frontiers.
Strategic and Performance Goals - 2• Innovate for Society points to the tight linkage
between NSF programs and societal needs, and it highlights the role that new knowledge and creativity play in economic prosperity and society's general welfare.– Make investments that lead to results and resources
that are useful to society.– Build the capacity of the nation's citizenry for
addressing societal challenges through science and engineering.
– Support the development of innovative learning systems.
Strategic and Performance Goals - 3• Perform as a Model Organization emphasizes
the importance to NSF of attaining excellence and inclusion in all operational aspects.– Achieve management excellence through leadership,
accountability, and personal responsibility.– Infuse learning as an essential element of the NSF
culture with emphasis on professional development and personal growth.
– Encourage and sustain a culture of creativity and innovation across the agency to ensure continuous improvement and achieve high levels of customer service.
Scientists and institutionsresponding to broad civilianscientific needs of the nation
}NSF Is a Science Management Agency
50,000 Annual Competitive Proposals
1,200full-time
employees
250,000 reviews(50,000 reviewers)
7,000 people inadvisory groups
About 12,000 new competitive awards plus anotherroughly 10,000 continuing award actions that obligate about $7.0 billion annually for academic, industrial, non-profit, governmental recipients.
NSF Is Divided into Directorates
National ScienceBoard
DirectorDeputy Director
StaffOffices
Mathematical andPhysical Sciences
BiologicalSciences
Computer andInformationScience andEngineering
Social, Behavioral,and Economic
Sciences
Educationand HumanResources
Budget, Finance,and Award
Management
Engineering
Informationand ResourceManagement
Geosciences
Directorates Are Divided into Divisions,and Divisions Are Divided into Programs
Geography and Spatial SciencesAnthropology programsPsychology and linguistics programs
EconomicsDecision, Risk, and Management SciencesMethodology, Measurement, and Statistics SociologyPolitical ScienceLaw and Social ScienceScience, Technology, and Society
Behavioral andCognitive Sciences
Social andEconomic Sciences
National Centerfor Science and
Engineering Statistics
Social, Behavioral, andEconomic Sciences
SBE MultidisciplinaryActivities
Much of NSF’s Funding Goes to Support Basic Research
What is basic research?“It’s like true love!”
You can’t really define it,but you know it when it’s there.
Let’s Try to DescribeBasic Research Anyway...
• Basic scientific research is grounded in a broader theoretical framework.
• It focuses on one or a few questions grounded in that broader framework.
• It uses scientifically sound approaches to assess the viability of answers to those questions.
• Its focused results also contribute to enhancement of broader theoretical knowledge.
As a result...• Basic scientific research contributes to
general understanding.• It’s research that’s well grounded in a general
theoretical framework or that generates development of new frameworks.
• It’s research that’s valuable even if we don’t care about its specific findings or applications.
• It’s research that often increases our knowledge of how we expand our knowledge
Basic "vs." Applied Research• It's not "either/or."• Basic research results often have great
direct and indirect utility and applicability.• But at its core, basic research is first and
foremost about broader theoretical development, not the focused application of specific research results.
• Analysis and synthesis are favored over prescription.
What NSF SupportsNSF supports basic research across all fields of science, including:– Behavioral and Cognitive
Sciences– Social and Economic
Sciences– Geographic and
Anthropological Sciences– Chemical sciences– Computer and information
science– Engineering – Geosciences– Biological sciences– Mathematical sciences– Physics and astronomy
NSF does NOT support applied research, such as:– Clinical research– Counseling – Business– Management– Social work– Planning– Legal training– Practice-oriented professional
degree programs
How Do You Gain Accessto Some of NSF’s Funds?
• Submit a proposal to compete in one of the standing program competitions for “unsolicited proposals.”
• Submit a proposal for a special competition.
Social, Behavioral, and Economic Science Programs
Disciplinary programs:– Cultural Anthropology– Biological Anthropology– Archaeology– Linguistics– Documenting Endangered
Languages– Social Psychology – Economics– Sociology – Political Science
Interdisciplinary programs:– Cognitive Neuroscience – Developmental and Learning
Sciences – Perception, Action, and Cognition– Geography and Spatial Sciences– Decision, Risk, and Management
Sciences– Science of Science and
Innovation Policy– Science of Organizations– Methodology, Measurement, and
Statistics– Science, Technology, and Society– Law and Social Sciences
Division of Behavioral and Cognitive Sciences
• Archaeology• Biological Anthropology• Cultural Anthropology• Geography and Spatial Sciences• Linguistics• Social Psychology• Perception, Action, and Cognition• Developmental and Learning Sciences• Cognitive Neuroscience
Division of Social andEconomic Sciences
• Economics• Decision, Risk, and Management Sciences• Science of Organizations• Sociology• Political Science• Law and Social Science• Methodology, Measurement, and Statistics• Science, Technology, and Society• Science of Science and Innovation Policy*
SBE Research in the Federal ContextA report from the National Science and Technology
Council
Signed in January 2009Distributed in April 2009
http://www.nsf.gov/sbe/prospectus_v10_3_17_09.pdf
SBE 2020 Is Providing Guidance• Community-driven
visioning exercise found interest in SBE sciences to be high
• Argued that future SBE research will be:– Interdisciplinary– Data-intensive– Collaborative
http://www.nsf.gov/pubs/2011/nsf11086/nsf11086.pdf
Other SBE 2020 Recommendations
• Four major topic areas were identified as having special potential from among those discussed:– Population change– Sources of disparities– Communication, language, and linguistics– Technology, new media, and social
networks
SBE Developmental Activities• NSF/SBE will continue to explore new
ideas in the future, concentrating over the next five years on more focused planning activities to:– Strengthen the ability of the NSF/SBE to
support interdisciplinary research, develop human capacities, and build out the data and organizational infrastructure
– Consider approaches required to shift resources to relevant priorities
In Addition to Its Standing Programs, NSF Has Many
Special Funding Opportunities
Check the NSF Web site for more information or contact relevant program officers
CAREEREPSCoR
PECASE
ADVANCE
RUI/ROA
REU
IGERT
GOALI NANOSB
IR
GK-12
EGBMinority
RPGs/CAAs
ITR
TUES
WSC
CNH
SciSIP CI-TEAM
CDI
EAGERRAPID
EaSM
SEES
SRN
RCN
Some Special Competitions in Which SBE Actively Participates
Within SBE• Interdisciplinary Behavioral and Social
Sciences (IBSS)• Building Community and Capacity for Data-
Intensive Research in the SBE Sciences and in Education and Human Resources (BCC-SBE/EHR)
• SBE Postdoctoral Research Fellowships • SBE Research Experiences for
Undergraduates Sites (SBE REU Sites)
Some Special Competitions in Which SBE Actively Participates
Within SBE - Dear Colleague Letters• Stimulating Research Related to the Science
of Broadening Participation• Interdisciplinary Research Across the SBE
Sciences• Workshop for Engaging SBE Scientists
Through Social and Policy Entrepreneurship
Some Special Competitions in Which SBE Actively Participates
- Beyond SBE - 1• Environmentally oriented competitions
– Dynamics of Coupled Natural and Human Systems (CNH)
– Ecology and Evolution of Infectious Diseases (EEID)
– Science, Engineering, and Education for Sustainability competitions
• Water Sustainability and Climate (WSC)• Research Coordination Networks (SEES-RCN)• Coastal SEES• Hazard SEES
• Arctic SEES•
• SEES Fellows
Some Special Competitions in Which SBE Actively Participates
- Beyond SBE - 2• Cyberinfrastructure-oriented competitions
– Core Techniques and Technologies for Advancing Big Data Science & Engineering (BIGDATA)
– Software Infrastructure for Sustained Innovation (SI2)
– Secure and Trustworthy Cyberspace (SaTC)
• Major Research Instrumentation (MRI)• Integrative Graduate Education and
Research Traineeships (IGERT)
Funding Mechanisms That May Be Used by SBE Programs
• Doctoral Dissertation Research Improvement (DDRI) awards
• Faculty Early-Career Development (CAREER) awards
• Research Coordination Networks (RCNs)• Rapid-Response Research (RAPID) awards• Early-Concept Grants for Exploratory Research
(EAGER)• Integrated NSF Support Promoting
Interdisciplinary Research and Education (INSPIRE) awards
Learn About Program(s)and/or Competitions(s)
• Look at the program/competition website (accessible via www.nsf.gov).
• Read the program description, announcement, or solicitation.
• Follow links or use the "Search Awards" function to view past awards.
• Prepare a ~1-page prospectus to share with program officers months before due dates.
Identifying the Best Program(s) or Competitions(s) for Your Research• Focus on theory
– In which communities is your theoretical framework drawn?
– To which communities will it contribute?• Consider where you will publish results
– Which journals will disseminate your findings?– Who are the researchers who read those
journals?• "Map" communities and readers onto NSF
programs/competitions to identify the best fit.• Many NSF programs co-review proposals.
Advance Warning of Special Opportunities Often Comes in
Budget Requests
FY13 Request Major Emphases - 1• Fostering the development of a clean
energy economy.• Supporting future job creation through
advanced manufacturing and emerging technologies.
• Protecting critical infrastructure.• Promoting multidisciplinary research in
new materials, wireless communications, cyberinfrastructure, and robotics.
FY13 Request Major Emphases - 2• Developing the next generation of
scientific leaders through support for graduate fellowships and early-career faculty.
• Advancing evidence-based reforms in science and mathematics education.
Strategies for Preparing Proposals for NSF
• Remember that NSF focuses on support for basic scientific research.
• Funding occurs through competitions with proposals subject to merit evaluation based on peer review.
• Allow plenty of time to learn about competitions, draft and revised proposals, and submit proposals before deadlines.
What Is the Crucial Ratiofor a Program Officer?
$“Bang for the Buck!”
What Kind of “Bang” Is an NSF Program Officer Looking For?
• Significant contributions to general scientific understandings.
• Enhancements of theoretical understandings in addition to any expansion of specific knowledge, especially potentially transformative advances.
• Broader impacts, such as enhanced education, greater diversity, improved infrastructure or methods, and beneficial applications.
• Dissemination of results, especially in refereed, widely disseminated publications.
So What Is the Crucial Ratiofor a Program Officer?
$
“Potential Bang for the Buck!”
Likelihood ofSignificantContributions toGeneral ScientificUnderstanding andPositive BroaderImpacts
Decisions Will Be Based onNSF Merit Review Criteria
NSF asks reviewers to comment on two major criteria:
• Intellectual merit• Broader impacts
Be aware that NSF merit review criteria recently have been redefined.
http://www.nsf.gov/pubs/policydocs/pappguide/nsf13001/gpg_3.jsp#IIIA
New Merit Review Principles• NSF projects should be of the highest
quality and have the potential to advance, if not transform, the frontiers of knowledge.
• NSF projects… should contribute more broadly to achieving societal goals.
• Meaningful assessment and evaluation of NSF-funded projects should be based on appropriate metrics.
The principles should be considered when preparing and reviewing proposals.
Merit Review Criteria• Intellectual Merit: The Intellectual Merit
criterion encompasses the potential to advance knowledge.
• Broader Impacts. The Broader Impacts criterion encompasses the potential to benefit society and contribute to the achievement of specific, desired societal outcomes.
Examples of Broader Impacts• Full participation of women, persons with disabilities, and
underrepresented minorities in science, technology, engineering, and mathematics (STEM)
• Development of a diverse, globally competitive STEM workforce• Improved STEM education and educator development at any
level• Increased public scientific literacy and public engagement with
science and technology• Improved well-being of individuals in society• Increased partnerships among academia, industry, and others• Improved national security• Increased economic competitiveness of the United States• Enhanced infrastructure for research and education
Caveats re: Broader Impacts• Investigators should focus on identifying
broader impacts that relate to their research and that can be completed and evaluated successfully.
• NSF expects impacts in proportion to the size of the project.
Elements for Consideration for Both IM and BI Criteria - 1
Criteria related to capabilities to conducta project successfully:• How well qualified is the individual, team,
or organization to conduct the proposed activities?
• Are there adequate resources available to the PI (either at the home organization or through collaborations) to carry out the proposed activities?
Elements for Consideration for Both IM and BI Criteria - 2
Criterion related to how a project will be conducted:• Is the plan for carrying out the proposed
activities well-reasoned, well-organized, and based on a sound rationale? Does the plan incorporate a mechanism to assess success?
Elements for Consideration for Both IM and BI Criteria - 3
Criteria related to the potential benefits of a project:• What is the potential for the proposed activity to:
– Advance knowledge and understanding within its own field or across different fields (IM)?
– Benefit society or advance desired societal outcomes (BI)?
• To what extent do the proposed activities suggest and explore creative, original, or potentially transformative concepts?
Potentially Transformative Research“Transformative research is defined as research driven by ideas that have the potential to radically change our understanding of an important existing scientific or engineering concept or leading to the creation of a new paradigm or field of science or engineering. Such research also is characterized by its challenge to current understanding or its pathway to new frontiers.” (National Science Board)
Another Perspective onPotentially Transformative Research
Cum
ulat
ive
Kno
wle
dge
A B
CD E
The Isserman Curve
Projects/Time
Program-Specific Review Criteria• What is the expected larger-scale, longer-term
significance of the project (as described in the proposal) if the project is conducted successfully?
• What is the likelihood that the project (as described in the proposal) will be conducted successfully?
Significance Score LikelihoodExtremely significant 7 Very, very likely to succeedVery significant 6 Very likely to succeedSignificant 5 Reasonably likely to succeedModerately significant 4 Moderate chances of successSomewhat significant 3 Minor chances of successVery mildly significant 2 Minimal chances of successNot significant 1 Very unlikely to succeed
NSF Merit Review Criteria Summary• Overarching principles
– Highest quality; Contribute to society; Meaningful assessment and evaluation
• Merit review criteria:– Intellectual merit; Broader impacts
• Elements considered for both criteria:– Capabilities; Conduct;
Potential benefits• Address program-/competition-specific
criteria (if applicable)
What’s Included in a Competitive NSF Research Proposal?
• An explanation of the theoretical framework within which the research question is set.
• Specification of the methods to be used to answer the question.
• Elaboration of how expected results will enhance the broader theoretical framework and have positive broader impacts.
• Biographical information about investigators.• A data-management plan and other required
materials.• A budget with justification of expenses.
When You Prepare a Proposal, Think Like Those Who Will Evaluate It
• External reviewers– They tend to be specialists; relevant
theory and technical details matter.• Advisory panel members
–They largely consist of generalists;so broader significance matters.
• Program officers– We’re the investors, seeking
“big bangs for our bucks.”
Additional Things to Consider When Preparing a Proposal to NSF• Keep the broader intellectual context clear
– Explore broader theory and relevant literature– Ground focal questions in a theoretical framework– Specify scientifically sound research plan– Discuss how expected results will contribute to
enhanced theory and broader impacts
• Don't start with and maintain focus on the specific case
What Expenses Should Be Listedin a Budget?
• For every possible expenditure, ask yourself:– Is this expenditure necessary at this level to
complete the project? -- or --
– Would the research be diminished substantially if this expenditure is not made or is significantly reduced?
If you answer “Yes” to these questions, include the expenditure in the budget.If you answer “No,” leave the item out or reduce it to reasonable levels.
• Be cognizant of overall funding limits for awards and for a program.
Include a Data-Management Plan– The types of data, samples, physical collections, software,
curriculum materials, and other materials to be produced in the course of the project;
– The standards to be used for data and metadata format and content (where existing standards are absent or deemed inadequate, this should be documented along with any proposed solutions or remedies);
– Policies for access and sharing including provisions for appropriate protection of privacy, confidentiality, security, intellectual property, or other rights or requirements;
– Policies and provisions for re-use, re-distribution, and the production of derivatives; and
– Plans for archiving data, samples, and other research products, and for preservation of access to them. (Look to provide long-term access from institutionally managed databases.)
Note that accessible data constitutes a broader impact!
What If Your ProposalIs Funded?
• Work with the program officer(s) to ensure that the "Bang for the Buck" is maintained during pre-award negotiations.
• Check with your program officer regarding any significant changes during conduct of the project.
• Conduct the research properly and disseminate the results promptly.
• Regularly report findings, products, and contributions (even after the funding has ended).
What If Your Proposal Is Declined?
• Pause a while to let the pain subside somewhat.
• Evaluate the reviews.– If criticisms focus on correctable points, revise
and resubmit the proposal.– If criticisms are more general, consider other
funding sources or other lines of inquiry.• If you have questions or want additional
information, contact the program officer.
Speaking of Time… A Suggested Timeline for Developing Proposals
3 months before the deadline
Develop prospectus for proposal and share it with colleagues as well as relevant agency program officers.
1 month before the deadline
Complete what you think is a very solid first draft of the entire proposal. Share it with colleagues and ask for honest, constructive advice.
2 weeks before the deadline
Use comments from colleagues to revise the proposal one or two more times.
1 week before the deadline
Forward the proposal to your sponsored projects office so that they can complete their work and submit the proposal a day or two before the deadline
5 months after the deadline
Politely ask the managing program officer when a decision might be made about your proposal (if you haven’t heard about its status already).
Above All Else, Be Persistent!Remember the words of Christopher Morley:
“Big shots are just little shotswho keep shooting!”
The NSF Staff Is at Your Service It’s not quite
that easy, but we willprovide whatever info
we can to help you makethe strongest possiblecase for your project.
Call or write!
Contact Information
Thomas [email protected]
Geography and Spatial Sciences Program
National Science Foundation4201 Wilson Blvd.; Room 995Arlington VA 22230 U.S.A.
Consult the NSF web site to identify programofficers for other programs or competitions.
STANDING SBE PROGRAM INFORMATION
Division of Social and Economic Sciences (SES)
• Supports research to develop and advance scientific knowledge focusing on economic, legal, political and social systems, organizations, and institutions
• Supports research on the intellectual and social contexts that govern the development and use of science and technology
Division Director: Jeryl Mumpower
Decision, Risk, andManagement Sciences
• Supports research that explores fundamental issues in judgment and decision making, risk analysis, management science, and organizational behavior
• Research must be relevant to an operational or applied context, grounded in theory, and based on empirical observation or subject to empirical validation
Program Officers: Robert O’Connor, Mary Rigdon
Economics• Supports:
– Both empirical and theoretical economic analysis as well as work on methods for rigorous research on economic behavior
– Research designed to improve the understanding of the processes and institutions of the U.S. economy and of the world system of which it is a part
– Almost all subfields of economics including: econometrics, economic history, finance, industrial organization, international economics, labor economics, public finance, macroeconomics, and mathematical economics
Program Officers: Nancy Lutz, Michael Reksulak, Niloy Bose
Science of Organizations• SoO funds research that advances the
fundamental understanding of how organizations develop, form and operate.
• Supports research which uses theory combined with empirical validation.
• Looks to expand the concepts, models and methodologies of change in organizations and institutions
Program Officer: Quinetta Roberson
Law and Social Science• Supports social scientific studies of law and law-like
systems of rules, institutions, processes, and behaviors
• Topics can include, but are not limited to– research designed to enhance the scientific
understanding of the impact of law– human behavior and interactions as these relate
to law– the dynamics of legal decision making – the nature, sources, and consequences of
variations and changes in legal institutions
Program Officers: Susan Sterett, Marjorie Zatz
Methodology, Measurement, and Statistics
• Seeks proposals that are interdisciplinary in nature, methodologically innovative, and grounded in theory, such as:– Models and methodology for social and
behavioral research– Statistical methodology/modeling directed
towards the social and behavioral sciences– Methodological aspects of procedures for
data collection
Program Officer: Cheryl Eavey
Political Science
• Supports scientific research that advances knowledge and understanding of citizenship, government, and politics
• Substantive areas include, but are not limited to:– American government and politics– comparative government and politics– international relations– political behavior– political economy– political institutions
• Supports Doctoral Dissertation Research Improvement Grants
Program Officers: Brian Humes and Erik Herron
Science, Technology and Society• STS considers proposals that examine questions that
arise in the interactions of engineering, science, technology, and society.
• There are four components: – Ethics and Values in Science, Engineering and Technology– History and Philosophy of Science, Engineering and Technology – Social Studies of Science, Engineering and Technology – Studies of Policy, Science, Engineering and Technology
• The components overlap, but are distinguished by the different scientific and scholarly.
Program Officers: Fred Kronz, Linda Layne
Sociology • The Sociology program supports theoretically grounded research on
systematic patterns of social relationships that examine the causes and consequences of human behavior, social structure and social change. Studies range from micro to macro levels of interaction.
• Topics include, but are not limited to:– Stratification, labor markets, mobility, social change – Organizations, networks, economic and workplace change– Crime, delinquency, social organization and social control– Race, ethnicity, social identity/interactions, culture, education– Family, gender, population, migration, immigration– Social movements, political processes, globalization and more
• The Program supports research that uses the range of social science methodologies — experimental, quantitative, qualitative and the combinations of multiple methods—for original data collection and secondary data analysis.
Program Officers: Pat White, Saylor Breckenridge
Division of Behavioral and Cognitive Sciences
• Supports research to develop and advance scientific knowledge focusing on human cognition, language, evolution, social behavior, and culture
• Supports research on the interactions between human societies and the physical environment
Division Director: Mark Weiss
Archaeology and Archaeometry• Funds:
– Archaeological research that contributes to an anthropological understanding of the past
– Anthropologically significant archaeometric research
Program Officer: John Yellen
Cultural Anthropology• Promotes basic scientific research on the
causes and consequences of human social and cultural variation
• Supports social scientific research of theoretical importance in all theoretical and empirical subfields
Program Officers: Jeff Mantz, Chris McCarty
Biological Anthropology• Supports basic research in areas related to:
– Human Evolution– Anthropological Genetics– Human Adaptation– Skeletal Biology– Primate Biology– Ecology and Behavior
• Grants are often characterized by:– An underlying evolutionary framework– A consideration of adaptation as a central theoretical theme– Generalizable Results
• Serves as a bridge between the social and behavioral sciences and the natural and physical sciences
Program Officer: Carolyn Ehardt
Linguistics• Supports scientific research of all types that focus on human
language as an object of investigation – the syntactic, semantic, phonetic, and phonological
properties of individual languages and of language in general
– the psychological processes involved in the use of language
– the development of linguistic capacities in children– social and cultural factors in language use, variation, and
change– the acoustics of speech and the physiological and
psychological processes involved in the production and perception of speech
– the biological bases of language in the brain
Program Officers: Joan Maling and Bill Badecker
Documenting Endangered Languages
• Responds to loss of world’s languages– Research grants– Fellowships in partnership with NEH
• Data collection, preparation of grammars & dictionaries
• Requires creation of archives• Training & Workshops• Cyber infrastructure and tools for linguistic analysis
Program Officer: Shobana Chelliah
Cognitive Neuroscience• Program supports highly innovative and interdisciplinary
proposals • Proposals should aim to advance a rigorous understanding of
how the human brain supports:• thought• perception• affect• action• social processes• and other aspects of cognition and behavior, including
how such processes develop and change in the brain and through evolutionary time.
Program Officer: Akaysha Tang
Developmental and Learning Sciences
• Supports studies that increase our understanding of cognitive, social, and biological processes related to children and adolescents’ learning in formal and informal settings
• Supports research on learning and development that:– incorporates multidisciplinary, multi-method, microgenetic, and
longitudinal approaches– develops new methods and theories– examines transfer of knowledge from one domain to another– assesses peer relations, family interactions, social identities, and
motivation– examines the impact of family, school, and community resources– assesses adolescents’ preparation for entry into the workforce– investigates the role of demographic and cultural characteristics in
children’s learning and development.
Program Officer: Peter Vishton
Perception Action and Cognition
• Supports basic research on human cognitive and perceptual functions
• Topics include, but are not limited to:– Attention– Memory– Spatial Cognition– Language Processing– Perceptual and Conceptual Development– Visual, Auditory, and Tactile Perception– Reasoning
• Research supported by the program encompasses a broad range of theoretical perspectives such as Symbolic Computation, Connectionism, and Dynamical Systems
Program Officers: Betty Tuller and Lawrence Gottlob
Social Psychology• Supports research on human social
behavior, including cultural differences and development over the life span
• Among the many research topics supported are:– attitude formation and change– social cognition– personality processes– interpersonal relations and group processes– the psychophysiological correlates of social behavior
Program Officers: Sally Dickerson, Rosanna Guadagno
Geography and Spatial Sciences• Supports research on geographic distributions
and interactions of human, physical, and biotic systems on the earth’s surface.
• Encourages investigations into the nature, causes, and consequences of human activity and natural environmental processes across a range of scales.
• Funds international and domestic projects which make contributions toward advancing geographic and spatial scientific theory.
Program Officers: Antoinette WinklerPrins, Kelley Crews, Tom Baerwald