IPPRA / Grant Monitor

2026-07-07
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Infrastructure Systems and People

PD-25-342Y · U.S. National Science Foundation

transportation infrastructure emergency disaster resilience ai data science social services Science & Technology R&D

Closes
Award ceiling
Award floor
Program funding
Expected awards
Cost sharing
No
Posted
2025-01-25
Instrument
Grant
Characterization · gpt-5.4-mini · 2026-07-07

NSF funds research on infrastructure systems and people interactions, including resilience, performance, data resources, and socio-technical system innovation under normal and extreme conditions, for eligible applicants.

Funds
basic research
University
direct
social behavioral
substantial
physical sciences
minor
engineering
central
computational data
substantial

⚑ Program encourages prospective PIs to email a one-page summary to program officers before full submission for scope guidance. · Does not support research whose primary methodological contribution is on individual components alone or primarily in geotechnical/structural engineering, materials science, architectural engineering, wireless communication and sensor technology, human factors, and/or hydrologic or environmental engineering without a systems perspective. · No deadline stated.

Unit fits — one characterization, each unit's own rules

Physical Sciences & Engineering (demo) 90 strong technical depth: central; funds basic research
IPPRA 84 strong portfolio topic: emergency_disaster_resilience; social/behavioral work is substantial; funds basic research
Tom Love Innovation Hub 15 none deep-tech content; no commercialization signal

Description

Infrastructure systems comprise complex connections between physical components, organizational structures and operational methods that support the needs of people and communities at the local, regional, national, and global scales. Such systems form the backbone of society, providing essential services as well as ensuring public health and welfare, economic prosperity and national security, and are expected to function under all operational conditions.

Meanwhile, infrastructure systems are capital intensive and vulnerable to disruptions from extreme events, including natural disasters, social crises, and malicious attacks. Disruptions in one system can have cascading impacts on others in space and over time. Moreover, short- versus long-term trade-offs, unintended consequences, and maladaptation are not often accounted for. How systems function at the “extreme,” which can be due to disruptors from the introduction of innovation, the convergence of technologies, sudden changes to their utilization and access, dramatic changes in operating environments, and changes to demand during crises are of particular interest. To ensure the efficiency, sustainability, resilience, and fair use of infrastructure systems, it is important to continuously improve and optimize their design, operations, system monitoring and performance assessment in dynamic, uncertain and sometime unknown environments. While functioning at extremes is of interest, the program also supports infrastructure systems research under the full range of operating conditions, across a variety of hazards, and in urban, suburban, and rural communities.

The program particularly encourages interdisciplinary and multidisciplinary exploration that will open new research frontiers and significantly expand and transform relevant research communities. The program welcomes research that addresses novel system integration, user-inspired system and service design, data analytics, and socio-technical studies focused on engineering and system innovation during normal and extreme conditions. The program also values innovative research efforts focused on collecting, standardizing, and sharing large-scale databases of real-world infrastructure systems and people-infrastructure interactions during normal and extreme operating conditions, which can be instrumental in providing benchmarks for model verification and validation and for advancing future research innovation in ISP.

The ISP program supports research on lifeline systems and communities that contributes to the National Science Foundation’s role in the National Earthquake Hazards Reduction Program (NEHRP) and the National Windstorm Impact Reduction Program (NWIRP). Principal Investigators are encouraged to leverage NSF’s investments in the Natural Hazards Engineering Research Infrastructure (NHERI) experimental, computational modeling and simulation, and data resources (https://www.designsafe-ci.org/) in their research to accelerate advances needed for reducing the impacts of natural hazards on infrastructures and people.

While physics-based subject-matter knowledge may be crucial in many research efforts, the program does not support research whose primary methodological contribution focuses on individual infrastructure components without a systems research perspective whose primary methodological focus is on geotechnical and structural engineering, material sciences, architectural engineering, wireless communication and sensor technology, human factors, and/or hydrologic or environmental engineering.

Proposers are actively encouraged to email a one-page project summary to the ISP Program Officers before submitting a full proposal for guidance on whether the proposed research topic falls within the scope of the ISP program; this guidance should especially be requested for multi-disciplinary research proposals, and proposals for which research and/or development on the subject infrastructure(s) are also supported by other federal and/or state agencies.

Apply

View on Grants.gov → CONTACT: U.S. National Science Foundation <grantsgovsupport@nsf.gov>

Proposal brief

ONE LLM CALL (~1¢) · CACHED · REQUIRES STAFF KEY

Proposal shell · National Science Foundation conventions

ONE LLM CALL (~2-3¢) · CACHED · SCAFFOLDING, NOT GHOSTWRITING