A weekly-updated index of currently active innovation opportunities (SBIR, STTR, BAA, grants, contracts).
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High-density munitions carriage and release technology R&D for weapon bay integration with advanced aircraft-to-weapon communications and power systems.
Missile test and evaluation technology development including miniaturized telemetry, autonomous flight termination, and encrypted tracking systems.
Machine learning and autonomy R&D for swarm coordination of networked autonomous weapon systems operating in dynamic battlespace environments.
Biotechnology innovation in detection and decontamination of chemical-biological agents using enzymatic systems, microbial remediation, and self-decontaminating coatings.
Aerosol science and technology R&D for CBRNE defense applications including detection and mitigation strategies.
Biological agent detection technology development for field-deployable point-of-detection systems and rapid identification.
Chemical agent point detection technology development for real-time field identification and analysis capabilities.
CBRNE early warning and detection R&D focusing on advanced sensor technologies and algorithms for threat identification.
Develop smoke and obscurant technologies for military operations with enhanced performance and operational capability.
Develop computational modeling, simulation, and analysis tools for predicting chemical and biological smoke and obscurant behavior and effects.
Develop collective protection systems and technologies for sheltering personnel from CBRNE threats.
Develop advanced respiratory protection equipment and technologies for CBRNE defense with improved performance and usability.
Develop decontamination technologies and methods for rapid removal of CBRNE agents from personnel, equipment, and environments.
Develop CBRNE countermeasures and defensive technologies against terrorism threats with protective and detection capabilities.
Research flame and incendiary technologies for military applications and threat assessment.
Develop explosives detection technologies operating at point, proximal, and standoff distances for security and force protection.
Develop chemical forensics methods for attribution and analysis of chemical agents in defense operations.
Research advanced materials and manufacturing science for chemical and biological defense applications with enhanced protective properties.
Develop analytical toxicology methods and analysis techniques for CBRNE agent identification and characterization.
Research target defeat technology applications for counter-CBRNE and defensive operations.
Research artificial intelligence and machine learning applications for CBRNE defense threat detection and response systems.
Develop advanced microsensor technologies for CBRNE detection and defense applications with enhanced sensitivity and miniaturization.
Research advanced manufacturing processes and material science innovations for CBRNE defense applications and protective equipment development.
Develop novel timber construction techniques for expeditionary and high-threat environments including cold-weather shelters, blast-resistant CLT panels, and protective structural innovations.
Develop efficient mobile and static PFAS destruction technologies using thermal methods with high throughput, producing compliant end products while managing waste byproducts.
This public index shows what’s active. RallyProp adds prioritization, alerts, historical context, and an AI-assisted workflow inside the app.
