Active Government Funding Opportunities

Consolidation of Big Bang platform stewardship contracts for capabilities growth, infrastructure automation, and DevSecOps objectives supporting classified and unclassified environments.

Market research for Code Blue paging system maintenance services supporting VA hospital emergency communications and healthcare operations.

Development of TRACE and PARCS plant-model simulation for Sequoyah nuclear power plant thermal-hydraulic and core physics analysis.

The Army seeks modular UAS payloads using the Picatinny CLIK standard to enable cross-manufacturer compatibility and rapid capability upgrades. Selected vendors will develop and field-test interchangeable payloads—including sensors, communications, and electronic warfare systems—with brigade-level units to maximize battlefield flexibility.

This SBIR solicitation seeks robust denoising technology to suppress noise in RF and acoustic sensing systems while preserving signal integrity. The Navy requires a solution achieving 10+ dB improvement that adapts to complex, non-stationary noise patterns on aircraft without extensive retuning.

This RFP seeks swarm-based micro-robotics capable of autonomous medical assistance for battlefield casualties in mass casualty incidents. Proposed systems must demonstrate at least two capabilities—such as casualty extraction, limb stabilization, hemorrhage control, or medication delivery—while remaining portable enough for IFAK integration or drone deployment.

Support high-tech research and innovation partnerships between U.S., Bahrain, and UK institutions focusing on advanced technology, defense, and economic collaboration. Projects should engage academic and private sector partners to develop secure, market-driven technology solutions.

Develop a low-cost "acoustic rainbow emitter" to attach to a UAS, reducing its acoustic signature and increasing its survivability in contested environments. This technology aims to counter the growing prevalence of acoustic sensors on the battlefield for improved ARSOF UAS mission success.

Seeking an acoustic communication system for drone swarms that uses propeller noise to share position data. This technology will enable decentralized swarming by allowing drones to autonomously maintain formation through sound-based communication.

Seeking affordable midwave infrared (MWIR) sensors for a missile-tracking satellite constellation, enabling persistent threat detection from low Earth orbit. Proposals should offer cost-effective designs suitable for large-scale deployment, improving upon current technology for proliferated space-based missile defense.

Adaptive test planning software needed to optimize evaluation of LEO satellite constellations. The tool should leverage evolving system knowledge and Bayesian methods to prioritize impactful tests and reduce redundant efforts in fast-paced space acquisition.

Develop advanced satellite de-orbiting technologies to enable commercial servicing solutions for problematic spacecraft in low Earth orbit. The goal is to create universal capture mechanisms, autonomous rendezvous capabilities, and design innovations that reduce orbital debris risks for proliferated satellite constellations.

ALIAS autonomy applications for UH-60 helicopters aim to enhance emergency services and wildfire suppression by enabling real-time decision-making and minimally-supervised aerial operations. The technology seeks to improve response times and mission effectiveness through advanced autonomous capabilities for complex tasks like medical evacuations, reconnaissance, and cargo transport.

A mobile card-based interface that leverages machine learning to automatically detect and quantify subtle animal behavioral changes, enabling more sensitive and unbiased assessments of chemical and biological threat responses at lower effect thresholds. This platform aims to accelerate medical countermeasure development by providing high-throughput, nuanced behavioral profiling technologies for defense research.

A compact laser-driven electron accelerator seeks to revolutionize radiation hardness testing for space electronics by generating high-energy electron beams in a small footprint. The technology aims to provide a more accessible, cost-effective alternative to large-scale accelerator facilities, enabling comprehensive single-event effect testing for microelectronic systems.

A comprehensive security assessment framework for secure messaging applications (SMAs) to identify and mitigate vulnerabilities in cryptographic protocols and software architectures. The research aims to develop actionable tools and models that enable developers and users to understand and defend against emerging threats in encrypted mobile communication platforms.

Develop innovative signal detection techniques using existing sensors to identify and track weapons of mass destruction (WMD) across military and commercial platforms. The solution aims to enhance WMD threat detection capabilities by leveraging common hardware like microphones, cameras, and infrared sensors more intelligently and cost-effectively.

Develop an innovative 200-mm GaN-on-Si technology platform to enable monolithic integration of high-performance RF frontend components like low-noise and power amplifiers. The solution aims to address current limitations in scalable semiconductor technologies for advanced radar, communication, and mobile applications.

Microphysiological systems (iMPS) offer a breakthrough in vaccine development by modeling human immune responses in vitro, bridging the gap between preclinical studies and clinical trials. By accurately predicting vaccine immunogenicity, efficacy, and potential side effects, iMPS can accelerate medical countermeasure discovery for emerging threats to military personnel.

Distributed protein production enables rapid, on-demand biologics creation across therapeutic, vaccine, and diagnostic domains. This innovative approach eliminates cold-chain logistics, accelerates development, and provides flexible scaling for critical medical and research applications.

Develop advanced, rapidly manufactured CBRN sensor technologies that can be produced closer to operational environments. These flexible sensing capabilities aim to reduce complex supply chain dependencies and enable faster, more resilient chemical, biological, radiological, and nuclear detection at the point of need.

Develop a compact, lightweight microsensor for rapid chemical threat detection across diverse operational environments. The deployable system enables real-time identification of chemical weapons agents through innovative sensing technologies, supporting enhanced situational awareness and mission command decision-making.

Advanced respirator design aims to reduce breathing resistance and particulate exposure for military personnel in high-pollution environments. The solution focuses on regenerable filtration technologies that enhance comfort and protection during extended wear and high-intensity operations.

Seeking innovative Li-ion battery solutions for advanced 6T technology that enhance energy density and performance. The goal is to develop more efficient, compact battery systems that address current limitations in portable and high-demand electronic applications.

Develop a low-cost Ka-band metamaterial-based electronically scanned array radar for test and training environments. The innovative design aims to reduce production costs while maintaining high performance for emulating threat representative systems.