Develop a prototype intelligence fusion system that ingests multi-source regional data to identify hidden transnational threat networks. The capability enables analysts to detect and prioritize evolving criminal-commercial-state actor relationships through dynamic behavior modeling and traceable analytics.
DoD seeks low-cost unmanned maritime systems for persistent surveillance, threat detection, and rapid response in ports and coastal waters. Solutions should integrate defensive security with offensive capabilities using modular, expendable platforms across surface, subsurface, and multi-modal configurations.
TSA seeks recurring technical support to identify, integrate, test, and evaluate security technologies across aviation and surface transportation. The effort establishes an evidence-based capability that accelerates requirements development and provides independent performance assessments to prevent terrorist threats.
This RFP seeks integrated quantum sensor components with minimal size, weight, and power requirements for vehicle and platform deployment. The effort aims to transition custom quantum sensing solutions toward standardized, commercially viable COTS components that reduce costs and expand dual-use market applications.
This RFP seeks a room-temperature photon-number-resolution imaging sensor array capable of detecting individual photons at gigahertz rates with minimal data loss. The technology will enable advanced quantum imaging and time-correlated photon measurements across megapixel arrays while maintaining scalability and real-time on-chip data compression.
Rapid Assured Access (R2A) program establishing multiple IDIQ contracts providing rapid, assured semiconductor foundry access and vendor onramps for DoD and defense contractors to mitigate microelectronics supply gaps.
Sources Sought Notice for International Monitoring System (IMS) Radionuclide Operations & Maintenance. DTRA seeks performer to operate US nuclear monitoring stations achieving 95% data availability for nuclear treaty verification starting August 2027.
ONR seeks advanced power system architectures with integrated controls, power conversion, and energy storage to condition transient shipboard loads for Navy vessel compatibility.
NASA seeks rapid-response and novel Earth science research to address urgent climate and environmental challenges. This open continuous submission program supports innovative investigations using NASA's advanced computing facilities and satellite data for real-time environmental monitoring and discovery.
NASA seeks research proposals advancing Solar System science through investigations of planetary bodies, moons, and space environments. This rolling solicitation supports fundamental scientific discoveries that expand understanding of our solar system's formation, evolution, and potential for life.
Navy seeks prototype technologies across six focus areas: signal mitigation, counter-unmanned systems, defeating adversarial AI, electronic security systems, access control, and maritime security for undersea and nuclear facility protection.
ERDC seeks modular, rapidly deployable supercomputing architectures combining HPC and AI capabilities to overcome lengthy acquisition timelines. The solution must enable quick initial deployment, seamless scaling across thousands of processors, in-place hardware upgrades, and exact replication across classified networks—breaking free from rigid, static supercomputer designs.
This SBIR seeks an affordable, ruggedized OEM ultrafine particulate sensor detecting particles as small as 10 nanometers in real-time to address a critical gap in military occupational exposure monitoring. The capability would enable service members in high-hazard environments like burn pits and flightlines to detect harmful submicron particles currently missed by standard equipment, supporting preventative health measures and informed command decisions.
NRC contract for thermal-hydraulic code development, maintenance, and user support including configuration control, error correction, documentation, and regulatory analysis capabilities.
Space Strategic Technology Institute seeks disruptive cyber and EM spectrum technologies for space operations resilience. Transformative R&D in space cyber defense, human-machine teaming, and cognitive overmatch.
Professional appraisal services for State Department cultural heritage collection evaluation, including contemporary and historic artworks, sculptures, textiles, and furniture.
State Department seeks qualified vendors for Boundaries and Sovereignty Encyclopedia (BASE) database project to develop comprehensive geopolitical boundary and sovereignty information systems.
This SBIR seeks to develop automatic speech recognition and forecasting models that extract geopolitical early-warning signals from multilingual radio, local news, and community audio in data-sparse regions where conventional intelligence collection is limited. The approach combines online streaming ingestion with software-defined radio receivers to improve conflict prediction accuracy from roughly 80% to 90%.
DARPA seeks non-volatile memory technology that reliably operates across extreme temperature ranges (-269°C to 600°C) and withstands high radiation environments. This capability addresses the "Memory Wall" bottleneck limiting high-performance computing for space, nuclear, and defense applications where current commercial memory solutions fail.
FALCON seeks to combine large language models with machine learning methods to provide domain-specific analysis of structured and unstructured data at scale. The program will develop architecture, evaluation metrics, and safeguards against hallucination while demonstrating practical application across enterprise and engineering datasets.
This RFP seeks a software-defined radio system offering multi-band operation across S, X, and Ka frequencies to replace existing interceptor communications equipment. The SDR must provide rapid frequency hopping, adaptive frequency selection, and simultaneous ground-space connectivity while operating reliably in austere flight environments.
The Department of War seeks a ground-based, affordable mass (G-BAM) precision payload delivery system using commercial technologies to provide cost-effective, high-volume alternatives to expensive hypersonic systems. This initiative addresses the need for sustained "magazine depth" capability against peer adversaries while maintaining operational affordability.
Neuromorphic hardware processing enables the Missile Defense Agency to achieve low-latency, high-throughput distributed sensing and adaptive waveform generation for space and terrestrial defense systems. This technology supports real-time learning and autonomous adaptation in contested radio frequency environments.