DOD SBIR 24.2 Annual

DOD SBIR 24.4 Annual - Lightweight Longwave Bolometer Sensor Components

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Department of Defense

The Department of Defense (DOD) is seeking proposals for the topic "Lightweight Longwave Bolometer Sensor Components" as part of the SBIR program. The objective of this topic is to develop components that enable low size, weight, and power (SWAP) thermal bolometer-type longwave thermal sensor payloads. These components should have equal or better performance than current commercial offerings while driving down SWAP. The components of interest include lens, focal plane, and readout and processing embedded hardware. The components should be ready for integration into a camera module by the end of Phase II. Thermal longwave infrared (LWIR) capabilities are crucial for many Army applications, especially for small Unmanned Aircraft Systems (UAS). However, the size, power, and weight constraints often limit the performance of these sensors. This topic aims to develop components that reduce the weight of thermal payloads while increasing their capabilities and keeping unit costs low. The project will have a Phase I and Phase II, with Phase I proposals accepting a cost of up to $250,000 for a 6-month period of performance. During Phase I, firms should design a proposed component with stakeholder input, analyze the SWAP-C impact of the component, and discuss how it will support the objective sensor payload. Phase II will involve completing the component design, fabricating, testing, and characterizing the component for integration into a lightweight sensor payload. Firms will also refine the design, define relevant interfaces, and lay out a high-level plan for integration. The potential applications of this research include smartphone camera augmentation, UAV camera augmentation, home security systems, and climate tech development. The project references academic research on bolometer manufacturing methods and the efficacy of leveraging colloidal quantum dots (QDs) for IR light sensing. Military contractors have also contributed to the research in the LWIR sensor and bolometer manufacturing spaces. For more information and to submit proposals, visit the DOD SBIR 24.4 Annual solicitation notice on grants.gov or the DOD SBIR/STTR Opportunities page. The open date for proposals is October 3, 2023, and the close date is March 31, 2025.

DOD SBIR 24.4 Annual - Autonomous Optical Sensors

Active

Department of Defense

The Department of Defense (DOD) is seeking proposals for the topic of "Autonomous Optical Sensors" as part of their SBIR program. The objective of this project is to develop a portable optical sensor that can capture high-quality real-time imagery data during missile tests. The sensor will be positioned near a missile launcher or target to analyze the terminal phase of the flight in remote locations where proper test infrastructure is unavailable. The Autonomous Optical Sensor (AOS) system will incorporate high-speed imaging cameras with advanced artificial intelligence and machine learning capabilities. The sensor will operate autonomously for an extended period with either a battery or renewable energy source and wirelessly receive setup and calibration data from a centralized command center. In Phase I, the awardee will research and define an integrated AOS configuration that includes various types of optical sensors and develop an AI framework to manage the system. Phase II will involve creating a prototype of the AOS and refining the integrated system design for optimal performance. The potential impacts of this technology include collecting real-time imagery for air traffic management at airports or surveillance of sensitive areas. It can help track flights, assist in airspace coordination, and alert operators of potential safety or security concerns. The project duration is not specified, but the solicitation is open until March 31, 2025. For more information and to submit a proposal, visit the DOD SBIR website.

DOD SBIR 24.4 Annual - Low-cost Longwave Bolometer Camera Fabrication Techniques

Active

Department of Defense

The Department of Defense (DOD) is seeking proposals for the topic "Low-cost Longwave Bolometer Camera Fabrication Techniques" as part of their SBIR 24.4 Annual solicitation. The objective of this topic is to develop novel technologies and fabrication techniques to reduce the cost of sensor payloads based on resistive microbolometer technology. The focus is on reducing the unit cost of the focal plane array and supporting a low-cost sensor. The solutions should be ready to transition into a camera module development effort by the end of Phase II. The solicitation emphasizes the importance of thermal longwave infrared (LWIR) capabilities in various Army applications and the need for a thermal sensor payload with high-definition array and dramatically reduced unit price. The solutions can involve novel manufacturing techniques, new materials systems, innovative component or module designs, or other approaches. Direct to Phase II contracts will focus on demonstrating enabling developments, and Phase II sequential efforts will deliver a prototype payload meeting the specified requirements for evaluation by Army Unmanned Aircraft Systems (UAS) or other programs. Phase I of the solicitation is only accepting Direct to Phase II (DP2) proposals with a cost of up to $2,000,000 for an 18-month period of performance. DP2 proposals are highly encouraged if they meet the requirements. Proposals should demonstrate the estimated cost reduction compared to products made with current fabrication techniques and discuss the impact on size, weight, and power of a complete camera module. Initial ideas on potential paths for integration into a production camera module should also be discussed. Phase II involves designing and fabricating a prototype device that demonstrates the proposed solution to reduce thermal sensor payload unit cost. The impact of the solution on the unit price of a final sensor payload and its incorporation into such a payload should be discussed. Relevant interfaces should be defined and documented, and potential partnerships with integrators or other companies for follow-on efforts should be considered. In Phase III, the solicitation highlights the potential dual-use applications of leveraging bolometer manufacturing methods for low-cost long wave infrared (LWIR) sensors. These applications include smartphone camera augmentation, UAV camera augmentation (specifically via the Office of Naval Research), home security systems, and climate tech via quantum dot (QD) development. Overall, this solicitation seeks innovative solutions to reduce the cost of thermal sensor payloads based on resistive microbolometer technology, with potential applications in various military and commercial sectors.

DOD SBIR 24.4 Annual - Autonomous Optical Sensors

Active

Department of Defense

The Department of Defense (DOD) is seeking proposals for the topic of "Autonomous Optical Sensors" as part of their SBIR program. The objective of this project is to develop a portable optical sensor that can capture high-quality real-time imagery data during missile tests. The sensor will be positioned near a missile launcher or target to analyze the terminal phase of the flight. The sensor will incorporate high-speed imaging cameras with advanced artificial intelligence and machine learning capabilities, allowing it to calibrate and manage itself and operate autonomously for an extended period. The sensor will wirelessly receive setup and calibration data from a centralized command center. In Phase I, the awardee will research and define an integrated configuration of the Autonomous Optical Sensor (AOS) that includes various types of optical sensors and an AI framework. Phase II will involve creating a prototype of the AOS based on the Phase I analysis, refining the integrated system design, and conducting functional testing in an operational context. The potential applications of this technology include collecting real-time imagery for air traffic management at airports or surveillance of sensitive areas. It can help track flights, assist in airspace coordination, and alert operators of potential safety or security concerns. The project is currently open for proposals, with a closing date of March 31, 2025. More information can be found on the DOD SBIR website.

DOD SBIR 24.4 Annual - Advanced Miniature Mission Processor for Hyperspectral Applications

Active

Department of Defense

The Department of Defense (DOD) is seeking proposals for the topic "Advanced Miniature Mission Processor for Hyperspectral Applications" as part of their SBIR 24.4 Annual solicitation. The research focuses on developing a low-size, weight, and power (SWaP) high-performance computer for an Unmanned Aircraft Systems (UAS)-integrated hyperspectral imaging (HSI) camera. The objective is to meet the necessary SWaP requirements for integration into ongoing modernization programs. The mission processor will aggregate multiple core payload operation functions and should be compliant with current Sensor Open System Architecture (SOSA) Small Form Factor (SFF) standards. The project duration is 24 months, and the funding for Phase II proposals is up to $2,000,000. The ultimate goal is to integrate the mission processor with a sensor/gimbal into a prototype system for field collection and observe its performance. Relevant references include research papers on hyperspectral imaging and signal processing approaches. Keywords for this topic include hyperspectral, real-time processor, near-real-time processor, and mission processor. For more information and to submit a proposal, visit the DOD SBIR website.

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