Active Government Funding Opportunities

This RFP seeks a universal Hold-Up Battery tester with integrated low-voltage alerts for Type 1 encryption devices, reducing costly depot returns and downtime by enabling timely battery replacement monitoring and maintenance.

The Navy seeks a compact, high-gain directional sonobuoy array for enhanced anti-submarine warfare detection in deep waters. The system must fit within standard A-size deployment constraints while delivering long-range passive acoustic detection and directional sensitivity for maritime patrol aircraft operations.

The Navy seeks a low-cost, multi-frequency dipping sonar transducer combining anti-submarine and mine countermeasure capabilities for helicopter deployment. This unified system reduces costs, logistics complexity, and mission coverage gaps while maintaining compatibility with existing naval aircraft platforms.

This RFP seeks automated flight control technology enabling aircraft to maintain precise formation positions within lead aircraft wake patterns for fuel savings of 10-20%. The solution must achieve robust station-keeping across mixed aircraft types with minimal hardware modifications and no additional data-link requirements.

This RFP seeks a modeling and simulation tool for generating high-fidelity, thermally-accurate virtual EO/IR objects—such as clouds and debris fields—to enhance developmental testing of missile warning and infrared countermeasure systems. The solution must support real-time scene generation across multiple resolutions and frame rates for realistic survivability assessments in cluttered battlefield environments.

This RFP seeks an integrated metal-ceramic matrix coating technology adapted from titanium applications to protect high-strength steel landing gear components. The solution must eliminate current coating limitations (corrosion hiding, poor repairability, wear issues) while improving durability and operational readiness.

Water propulsion and operator control improvements are needed for the Amphibious Combat Vehicle to enhance maneuverability in surf zones and reduce operator workload. The solution must simplify the human-machine interface, improve responsiveness, and fit within strict dimensional constraints while maintaining performance in shallow-water environments.

The Navy seeks an advanced passive Structural Health Monitoring system to detect and characterize hull cracks in real time, addressing limitations of current strain-gauge approaches. This automated solution would enable ships to identify structural damage early, reducing inspection costs and operational risks at sea.

This SBIR Direct to Phase II seeks to integrate Highly Loaded Grain (HLG) propellant technology into the 2.75" Mk66 rocket motor to increase range by 30% while maintaining affordability and compatibility with existing systems. The advancement addresses the need for extended-range capabilities in current unguided and precision-guided munitions platforms.

This RFP seeks an AI/ML-enabled portable diagnostic device to rapidly identify faults in military airborne fiber-optic networks with centimeter-level precision, reducing aircraft downtime and intrusive panel removals during maintenance troubleshooting operations.

The Navy seeks domestic production of metal organic precursors like TDMAZ for microelectronics and advanced ceramics manufacturing. This initiative aims to establish a U.S.-based supply chain for critical chemical feedstocks essential to atomic layer deposition and composite material production.

The Navy seeks integration of HLG propulsion technology into existing 10-inch rocket motors to boost range and tactical flexibility while increasing total impulse by approximately 30%. This Direct to Phase II effort aims to mature the advanced propulsion approach and raise readiness levels for tactical air-launched rockets.

The Navy seeks RF photonic front-end architectures that use fiber-optic and light-based technologies to improve communications and navigation resilience in contested electromagnetic environments. Solutions should reduce noise, resist jamming, and automatically suppress interference while maintaining reliable performance on maritime platforms.

The Air Force seeks a non-invasive wearable device that continuously detects viral and bacterial infections through biomarkers in saliva or sweat, then delivers immediate broad-spectrum treatment in austere operational environments where medical care is unavailable, enabling early threat response and improved warfighter survivability.

This RFP seeks detection technologies and systemic treatments for hazardous material exposures absorbed by military working dogs in combat operations. Proposals should address internal contamination via injection kits with identifiers and treatments, or blood filtration systems deployable by veterinary personnel.

This RFP seeks innovative detection and treatment methods for traumatic brain injury in military working dogs, addressing high mortality rates and performance impacts. Solutions should leverage existing research from animal models to improve clinical outcomes beyond current supportive care approaches.

This RFP seeks a shelf-stable canine whole blood product or substitute to improve Military Working Dog survival rates in combat. The solution must safely treat traumatic blood loss in operational environments with shelf-life exceeding three years and thermal stability across extreme temperatures.

This RFP seeks development of small-molecule antifungal compounds effective against resistant fungi like Candida auris and Aspergillus species. The goal is to address rising fungal infection rates and hospitalizations by creating safer, broad-spectrum alternatives to current treatments limited by toxicity and drug resistance.

This STTR seeks development of low-cost phased array antennas for small unmanned aircraft swarms to enable collaborative jamming capabilities. The technology addresses the need for affordable, scalable, and resilient jamming solutions by coordinating multiple sUAS units to focus jamming energy on specific targets more effectively than traditional high-power systems.

The Air Force seeks Runtime Assured Autonomy (RTAA) technology to continuously monitor and safeguard autonomous unmanned systems when radio communications fail or operator workload is saturated. RTAA detects autonomy faults and activates recovery protocols to ensure safe flight and mission success in complex battle scenarios.

The Air Force seeks intelligent autonomy capabilities for aircraft to operate effectively in threat-rich environments while managing uncertainty and enabling collaborative teaming. This addresses the need for autonomous systems to make rapid, informed decisions and achieve air superiority through risk-aware behaviors and multi-vehicle coordination.

CHORD seeks to develop advanced debriefing tools with explainable AI analytics to help military operators understand autonomous crewed and remotely piloted aircraft decisions during post-mission review, addressing current gaps in transparency and trust for human-machine teaming in tactical operations.

The DoD seeks an AI framework generating high-fidelity, multimodal synthetic scenes for training autonomous systems and AI/ML models in realistic environments. The solution must integrate geospatial data with RF and EO/IR sensor simulations, ensuring spatial-temporal consistency and compatibility with existing tools like FLITES and Xpatch.

This RFP seeks blockchain-based logistics tracking technology to provide military commanders real-time visibility into in-transit assets across disparate systems. The solution must integrate distributed ledger, sensor fusion, and predictive analytics to overcome current data silos and manual reporting limitations.

This feasibility study seeks compact LiDAR system designs for portable underwater vehicles operating in shallow coastal waters. The effort addresses the need for safe, affordable, and easily integrated payloads that enable rapid deployment and standardized data collection in littoral environments.