HOW THE PROCESS WORKS: APEX has anonymized the information below due to the competitive nature of the solicitations and proposal environment. If you find an interest, please contact the Process Navigation team using the input form below. You can do this by selecting the checkbox of organization you are interested in connecting with filling out the rest of the form at the bottom of the page. The table columns designate whether the organization seeking a partner is a company or a university and the kind of organization sought for a partnership. The table also includes a technology description of what the advertising organization brings to the table (technology brought) and what the advertising organization seeks in a partner (technology sought). Once you respond with the APEX assigned number(s) you are interested in meeting, we will review the request and facilitate the introduction(s). Once we connect parties, we leave it up to you to discuss if interests, objectives, and capabilities are aligned.
HOW THE PROCESS WORKS: APEX has anonymized the information below due to the competitive nature of the solicitations and proposal environment. If you find an interest, please contact Michael Bianco using the input form below. Include the APEX assigned number or list of numbers to which you want to be introduced. The table columns designate whether the organization seeking a partner is a company or a university and the kind of organization sought for a partnership. The table also includes a technology description of what the advertising organization brings to the table (technology brought) and what the advertising organization seeks in a partner (technology sought) as well as the technical competencies of the desired partner. Once you respond with the APEX assigned number(s) you are interested in meeting, we will review the request with the researcher seeking a partner and get their approval to release additional information to both parties and connect the two of you to explore a collaboration. Once we connect parties, we leave it up to you to discuss if interests, objectives, and capabilities are aligned.
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| # | Organization type | Partner type | Our capabilities | Organization skills | Capabilities sought | Agency interests |
|---|---|---|---|---|---|---|
| Small Business | Both small business and research institute | We provide a hardware/software platform to accelerate research & development of prosthetic, orthotic, exoskeleton, and other wearable robotics technology. We accelerate discovery of innovative real-world solutions to enhance human mobility using emulator technology that enables rapid individualized testing & evaluation of mechanical assistance strategies. | Advanced/Additive Manufacturing,Biotechnology,Control Systems,Human Performance,Machine Design,Medical Instrumentation,Robotics,Software Development wearables, exoskeletons, prosthetics, orthotics |
We are looking to partner with domain experts with deep knowledge around specific challenges in human performance, injury risk, and injury recovery that could be positively impacted via advancements in body-worn mechanical assistance technologies. | Air Force,Space Force,Army,Navy,DoD Other,Non-DoD | |
| Research Institution | Small business | Digital Engineering The team has extensive experience in AI/machine learning and digital engineering, and has recently developed a physics-guided Bayesian neural learning method (considering physical knowledge, learning capability and uncertainty quantification together) for dynamic system modeling and optimization. Areas of interest include: - Application of AI/machine learning in complex engineering systems (such as UAVs, hypersonic propulsion and high-power energy systems) and digital twins of such systems; - Development of trustworthy and explainable AI models, based on the physics-guided Bayesian neural learning method; - Development of engineering workflow deploying the surrogate AI-based models, including model training, validation and integration, real-time simulation, and hardware-in-the loop testing; - Implementation of AI-based surrogate models on high-performance computing platforms such as real-time processors, GPGPUs, FPGAs and quantum computing resources; - Integration and demonstration of AI-driven surrogate models for design and development of systems such as high-power energy systems, hypersonic gradient printed structures, and dc power emulators. Quantum Computing and Sensing - Quantum machine learning algorithms and implementation on quantum edge-computing hardware for quantum sensor data processing; - Machine learning algorithms for quantum sensor characterization and adaptive measurement; - A quantum sensor dynamics modeling and simulation framework based on classical or quantum computing resources; - Machine learning driven quantum optimal control software and FPGA-based implementation for quantum sensors and processors; - Leveraging emerging quantum sensor data processing algorithms to solve practical challenging problems of importance to Air Force and NASA missions, such as command and control, air traffic management, risk evaluation, UAV teaming/safety, logistics optimization, etc. | Advanced Materials,Advanced Power/Batteries,AI/ML,Autonomy,Aviation Power Systems,Big Data,Control Systems,Data Analytics,Energy Storage,Flight Control,Neuroscience,Power Generation,Power Management,Quantum Sciences,Robotics,Sense and Avoid,Software Development,Space Situational Awareness,UAS/Aircraft/Aero Design,Vehicle Design |
AI/ML, autonomy, flight control, power, quantum computing, quantum sensing, real-time systems, etc. | Air Force,Space Force,Army,Navy,DoD Other,Non-DoD,Ohio Federal Research Network | |
| Small Business | Both small business and research institute | We are a small business specializing in a variety of AI/ML applications and custom software. We have a 100% Phase I to Phase II transition rate across both DoD and other federal agencies. | AI/ML,Autonomy,Big Data,Data Analytics,Position/Navigation and Timing,Sense and Avoid,Software Development Computer Vision, Natural Language Processing |
We seek partnerships with subject-matter experts to inform the development of our models and/or software. We ask our SME partners to help define accurate relationships between the variables incorporated into our models, as well as inform real-world use cases and user experience. We have partnered with universities, labs, and businesses from around the country on a variety of SBIR/STTR projects including navigation for autonomous vehicles, verification and validation of autonomous systems, synthetic generation of satellite imagery, risk prediction for small farms, and more. We are always looking to expand into new use cases where our AI/ML and software expertise can be applied. | Air Force,Space Force,Army,Navy,DoD Other,Non-DoD |
The numbers of each organization you are interested in connecting with will auto-populate below based on the check boxes that you have selected. We will review the request and then reach out to both parties and connect the two of you to explore a collaboration. Once we connect parties, we leave it up to you to discuss if interests, objectives, and capabilities are aligned.