Sources Sought for Headgate Rock Substation McGraw Edison Power Transformer load tap changer (LTC) retrofit project, seeking capability statements for legacy equipment modernization.
DEPT OF THE ARMYDEPT OF DEFENSE.DEPT OF THE ARMY.US ARMY CORPS OF ENGINEERS.SCO ALEXANDRIA.ENGINEER RESEARCH AND DEVELOPMENT CENTER.W2R2 CONST ENGRG LAB
Annual renewal and expansion of Xendee microgrid technoeconomic modeling software licenses for Army Corps of Engineers research facility, including 3 Platinum and 2 Gold licenses for energy grid analysis.
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.
Marine Corps Base Quantico seeks coordinators of religious education for chapel community services. Personnel services for religious education programming and military morale.
State Department seeks qualified vendors for Boundaries and Sovereignty Encyclopedia (BASE) database project to develop comprehensive geopolitical boundary and sovereignty information systems.
EPA SBIR Phase II solicitation supporting small business innovation in environmental protection, sustainability, and regulatory compliance technologies.
DEPT OF THE AIR FORCEDEPT OF DEFENSE.DEPT OF THE AIR FORCE.AIR FORCE MATERIEL COMMAND.AF INSTALLATION & MISSION SUPPORT CENTER.FA8003 771 ENTERPRISE SOURCING SQ
Small Business Set-aside for Wellness Health Promotion Portal (WHPP) III providing employee wellness and health promotion services to Air Force personnel.
USDA Food and Nutrition Service seeks qualified vendors for non-personal services supporting retailer investigations for SNAP program integrity assurance.
This RFP seeks integrated digital capabilities combining intelligent scheduling, centralized information management, and advanced search to modernize Space Launch System operational processes. The solution will reduce manual workload, improve decision quality, and enable faster access to institutional knowledge for enhanced mission readiness and operational tempo.
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.
MDA seeks an automated cybersecurity control assessment platform that unifies vulnerability scanning and STIG data mapping across cloud, on-premise, and disconnected environments. The solution must eliminate manual correlation work, validate control implementation status, and synchronize assessment data from tactical sites to strategic governance centers.
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.
This RFP seeks distributed AI algorithms enabling a small UAS swarm to collaboratively defend an area against numerically superior enemy swarms using decentralized decision-making and inter-drone communication. The solution must operate within strict weight constraints and function in both networked and denied communications environments.
This RFP seeks foundation-model-based systems for collaborative target recognition across multi-domain unmanned platforms. The solution must enable cross-platform target disambiguation and sensor fusion to replace manual, error-prone coordination processes in degraded operational environments.
Adaptive AI-driven waveform design for radar systems that autonomously optimize transmit parameters to counter electronic attack and interference in contested environments. The solution uses deep reinforcement learning to enable real-time waveform adaptation on edge-computing hardware while maintaining strict power and size constraints.
This RFP seeks tunable metasurface devices that perform analog optical edge detection and image processing directly within thermal-imaging systems. The innovation reduces computational load and latency by shifting feature extraction from digital post-processing to the optical front-end using practical, scalable mid-wave infrared materials.
This RFP seeks innovative ignition systems for multi-pulse solid propellant rocket motors that can ignite multiple times using the same hardware. The technology aims to reduce reliance on pyrotechnic initiators, lowering inadvertent ignition risks while enabling more flexible propellant utilization and system design.
The Missile Defense Agency is seeking miniaturized photonic and quantum technologies to enhance radar and communication systems with improved resilience and performance. Proposals should demonstrate low-power transceiver designs that integrate into modern sensor platforms while advancing common building block technologies for software-defined radios.