Displaying 13 - 15 of 31
| ID# | Organization type | Agency interests | Capabilities offered | Equipment & facilities | Organization area of interest(s) | Other offerings | Partner capabilities sought | Partner type | Partner area of interest(s) | Other partner skills sought |
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| Small Business | Capability: 3U - 12U CubeSat design, prototyping, and components, end-to-end communication design for data delivery from a spacecraft. The key technologies for Space-Based Space Situational Awareness (SSA) includes optical and RF sensors, software defined radios, flight computer and software, AI modules and their integration capability technology in the CubeSat form. |
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Technical Competencies - Space system design and development services, Space communications analytics and services, and Advanced software development and services. Capabilities - small satellite design and integration, aerospace systems engineering, Space: AI, spacecraft connectivity analysis and design, spectrum management, lunar mission analysis and design, database design and implementation, and full-stack application development. Facilities - 10,000sqft of office and lab space which includes Innovation Studio Lab (an ESD safe Lab), 3U CubeSat Integrations lab, AI modeling station, multiple design and analysis work spaces, and testing facilities. Equipment includes - software defined radios, flight software, advanced processors, commercial design analytical tools, optical sensors, and 3D printers. | Technologies and Capabilities we are seeking: Multi-sensor fusion, wide field-of-view optical sensors, Machine Learning (ML)/AI model training and dataset generation, ultra-sensitive RF receivers, and application of ML to databases. | Academic research partner |
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| Small Business | Multi-material additive manufacturing for extreme environments. |
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Our organization's Lab outside Dayton OH includes advanced additive manufacturing R&D systems. We have active portfolio of R&D efforts on advancing AM processing capabilities for hypersonic applications through OFRN, AFRL, and JHTO sponsored projects. Our team includes subject matter experts in additive manufacturing, finite element modeling, metallographic analysis, and aerothermal structural behavior in extreme environments. | Open to potential partners with expertise in design and thermal analysis of representative parts for hypersonic vehicles. We already have academic partners identified for materials characterization and testing. Note seeking additional partners in those areas. | Both academic and industry partners |
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| Academic | 4.2 Space-Based Space Situational Awareness We’ve been developing a space-based Space Domain Awareness (SDA) solution that may be capable of performing real-time SDA catalog updates (e.g., orbit-type prediction or satellite brand recognition, etc.) and Resident Space Objects (RSO) tracking (e.g., trajectory prediction or dynamic tracking, etc.) based on the data collected from space-based sensors. The goal was to develop machine learning based models and methods for configuring/selecting on-orbit sensors, performing SDA observations, and extracting information from those observations. Also, there was some initial evidence to validate and test these models and methods on real satellites based on public data sources. 5.2 Quantum Technologies Machine learning and classical/quantum algorithms for signal processing, e.g., quantum sensors. 6.2 Operator defined metrics for trusted autonomy We’ve been developing some human-interactive inference-based machine learning models and tools to monitor and calibrate trust in autonomous systems and ensure that they are safe, reliable, and trustworthy from the perspectives of many stakeholders, by employing a scientifically sound approach. These tools will include predicting and generating the unified knowledge presentations and performance/risk metrics about both the machines and human operators, to enable symbiotic human-machine cooperation and knowledge sharing. Eventually, these tools will help enable new real-world use-cases and transform the way we operate autonomous systems in uncertain, complex environments, at a faster pace and a lower cost. | Quantum sensor prototypes. |
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Capabilities of system integration. data collection and hardware testing for the following: (a) Space-Based Space Situational Awareness (b) Quantum Technologies (c) Operator defined metrics for trusted autonomy | Both academic and industry partners |
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Data sources or software infrastructure for autonomy mission and/or space applications (e.g., satellites) |
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