Low Cost Interceptors for Missile Defense

Low Cost Interceptors for Missile Defense

ID: MDA254-D006Type: Phase II

Overview

Topic

Low Cost Interceptors for Missile Defense

Agency

Agency: DODBranch: MDA

Program

Type: SBIRPhase: Phase II

Topic Link

https://www.dodsbirsttr.mil/topics-app/

Additional Information

https://www.dodsbirsttr.mil/topics-app/

Timeline

Description

The Missile Defense Agency (MDA) is seeking proposals for the development of low-cost interceptors (LCIs) as part of its Small Business Innovation Research (SBIR) program. The objective is to design and analyze LCIs that can effectively counter a range of missile threats, including supersonic cruise missiles, short- and medium-range ballistic missiles, and hypersonic glide vehicles, while utilizing commercial-off-the-shelf components and rapid manufacturing practices to reduce costs significantly. This initiative is crucial for enhancing missile defense capabilities and achieving a more balanced offense/defense cost ratio. Interested parties should prepare to submit proposals by September 24, 2025, with funding amounts for the interceptors estimated between $350,000 and $700,000 each, and further details can be found at the provided source link.

Files

Title

Size

Type

Posted

24 KB

Document

It appears that you haven't provided the text you would like summarized. Please provide the document or text for me to create a summary.

Similar Opportunities

Space-Based Interceptors for Hypersonic Glide Vehicle Threats -

The United States Space Force (USSF) is seeking innovative solutions for the development of space-based interceptors (SBIs) designed to defeat hypersonic glide vehicle (HGV) threats during their midcourse or glide phases of flight. This initiative is part of a broader strategy to establish a layered missile defense architecture that integrates advanced sensing, autonomy, and kinetic interception capabilities, focusing on compact, high-performance interceptors that can operate in extreme thermal environments and manage unpredictable trajectories. The opportunity is structured as a Direct-to-Phase II effort, requiring applicants to demonstrate prior feasibility and provide a comprehensive development timeline, with key deadlines set for proposal submission by December 31, 2025. Interested parties can find more information and submit proposals through the official solicitation portal at https://www.dodsbirsttr.mil/topics-app/.

Affordable IR Sensors for Proliferated LEO Missile Tracking Constellation -

The United States Space Force (USSF), through the Space Development Agency (SDA), is seeking innovative solutions for affordable midwave infrared (MWIR) sensor technologies aimed at enhancing missile detection and tracking capabilities in Low Earth Orbit (LEO). The primary objective is to develop a complete sensor prototype that demonstrates high sensitivity to missile plumes, radiation tolerance for extended LEO operations, and compatibility with small satellite platforms, all while achieving significant cost reductions through innovative materials and manufacturing processes. This initiative is critical for the Proliferated Warfighter Space Architecture (PWSA) and other next-generation missile warning constellations, ensuring effective defense against advanced missile threats. Interested parties should note that this is a Direct-to-Phase-II effort, with proposals due by December 31, 2025, and must demonstrate prior feasibility studies and a clear plan for integration with U.S. Department of Air Force operations.

Novel Technologies for CWMD and Related Threats - Open Topic -

The Defense Threat Reduction Agency (DTRA) is seeking innovative solutions through its Small Business Innovation Research (SBIR) program to develop novel technologies for detecting radiological and nuclear threats without the use of specialized sensors. The objective is to utilize signals from existing general-purpose military hardware, commercially available devices, and public data sources to enhance the detection capabilities for weapons of mass destruction (WMD). This initiative is crucial for overcoming the challenges associated with the high costs and lengthy timelines of developing new military hardware for WMD detection. The project is structured in three phases: Phase I focuses on identifying feasible use cases and developing a course of action; Phase II involves building and testing a model or prototype; and Phase III aims to refine the technology for broader dual-use applications in defense, government, and commercial sectors. The solicitation is currently in pre-release status, with an open date set for December 10, 2025, and a close date of December 31, 2025. Interested parties can find more information and submit proposals through the DOD SBIR website.

Secure Multi-Source Data Fusion Environment for pLEO Constellations -

The United States Space Force (USSF), through the Space Development Agency (SDA), is seeking innovative solutions for a Secure Multi-Source Data Fusion Environment tailored for proliferated Low Earth Orbit (pLEO) constellations. The objective is to develop an adaptable software platform capable of ingesting, integrating, and analyzing high-volume, low-latency data from diverse space-based sources, enhancing real-time situational awareness and mission adaptability for the Department of Defense’s Proliferated Warfighter Space Architecture (PWSA). This initiative is critical for enabling automated decision-making and timely execution of operations, supporting the USSF's goal of improving data-to-decision agility and operational responsiveness. Interested parties must prepare Direct-to-Phase II proposals, demonstrating a completed feasibility study and a clear integration plan with Department of Air Force operations, with the application deadline set for December 31, 2025.

Technology Maturation to Support Commercial De-Orbit as a Service for pLEO Constellations -

The United States Space Force (USSF), through the Space Development Agency (SDA), is seeking innovative solutions for the development of commercial De-Orbit as a Service (DaaS) capabilities aimed at managing proliferated Low Earth Orbit (pLEO) satellite constellations. The primary objective is to mature key technologies that facilitate safe and scalable satellite disposal mechanisms, particularly for satellites that encounter mission-ending anomalies and cannot autonomously de-orbit. This initiative is crucial for establishing a commercially sustainable DaaS market, reducing technical and operational risks, and laying the groundwork for future demonstration missions. Interested parties should note that the solicitation is set to open on December 10, 2025, with proposals due by December 31, 2025, and further details can be found at the provided source link.

Microphysiological systems to Assess Pretreatment Immunogenicity and Efficacy (MAGPIE) -

The Defense Threat Reduction Agency (DTRA) is seeking proposals for the development of Microphysiological systems to Assess Pretreatment Immunogenicity and Efficacy (MAGPIE), specifically immune microphysiological systems (iMPS) aimed at evaluating vaccines against high-consequence pathogens. The primary objective is to create iMPS that can replicate known vaccine responses, differentiate vaccine efficacy, and predict the immunogenicity of novel vaccine constructs, thereby addressing the limitations of traditional vaccine development models. This initiative is crucial for enhancing warfighter readiness by facilitating accelerated vaccine development and reducing reliance on traditional animal models. Interested parties should note that the solicitation is set to open on December 10, 2025, with applications due by December 31, 2025, and further details can be found at the DOD SBIR/STTR website.

Pulsed High-power Laser Accelerators to Study radiation Hardening (PHLASH) -

The Department of Defense, through DARPA, is seeking proposals for the Pulsed High-power Laser Accelerators to Study Radiation Hardening (PHLASH) program, which aims to develop a compact, scalable laser driver for electron beam generation to enhance radiation testing of microelectronic systems intended for space applications. The primary objective is to demonstrate a prototype laser driver capable of generating 50-MeV electron beam energies at a pulse repetition rate exceeding 100 Hz, with a design that can be scaled to 100 GeV at 1 kHz, all within a compact footprint of less than 250 m³. This initiative addresses the limitations of existing heavy-ion accelerator facilities by leveraging Laser Wakefield Acceleration (LWFA) technology, which allows for high-energy electron packet generation over significantly shorter distances. Proposals are due by December 31, 2025, and interested parties can find more information and submit their applications through the official solicitation link at https://www.dodsbirsttr.mil/topics-app/.

Integrated Deployable Microsensors for Chemical Detection -

The Department of Defense (DoD) is seeking proposals for the development of Integrated Deployable Microsensors for Chemical Detection, aimed at providing early warning of chemical threats. The objective is to create a low size, weight, power, and cost (SWaP-C) microsensor capable of detecting chemical weapons agents and pharmaceutical-based agents in vapor and aerosol forms within a critical timeframe of 10 minutes. This technology is crucial for enhancing rapid response and decision-making in both military and civilian contexts, particularly for first responders in environmental detection and health monitoring. Proposals are due by December 31, 2025, with the opportunity opening on December 10, 2025, and further details can be found at the DoD SBIR website.

Far Forward Manufacturing of CBRN Sensors -

The Department of Defense (DoD) is seeking proposals for the Far Forward Manufacturing (FFM) of Chemical, Biological, Radiological, and Nuclear (CBRN) sensors, as outlined in solicitation number CBD254-008. The objective is to accelerate the production of compact and economical CBRN sensors that require minimal logistical footprints, enabling real-time threat detection for warfighters while reducing reliance on complex supply chains through advanced manufacturing techniques such as 3D printing and biomanufacturing. This initiative is critical for ensuring force readiness and adaptability in modern warfare, with potential dual-use applications in commercial sectors like clinical diagnostics and environmental sensing. Interested parties should note that Phase I proposals are due by December 31, 2025, with potential funding of up to $500,000 available for successful Phase II performers who secure additional non-SBIR/STTR funding.

Knowledge-Guided Test and Evaluation Frameworks for proliferated Low Earth Orbit Constellations -

The United States Space Force, through the Space Development Agency (SDA), is seeking innovative solutions for a knowledge-guided test and evaluation framework tailored for the Proliferated Warfighter Space Architecture (PWSA), a rapidly evolving constellation of satellites in Low Earth Orbit (LEO). The objective is to develop an adaptive test-planning capability that continuously updates system performance, quantifies knowledge gain against resource costs, and dynamically re-plans test sequences to prioritize high-utility activities, utilizing probabilistic reasoning and integrating both synthetic and live test data. This initiative is critical for enhancing the efficiency and effectiveness of test campaigns in support of SDA's agile acquisition model, with Phase I being a direct-to-Phase II proposal process requiring a feasibility study. The opportunity is set to open for applications on December 10, 2025, with a closing date of December 31, 2025, and interested parties can find more information at the provided source link.