Revolutionizing the Functional Movement Screen with AI-powered, clinically precise mobility and movement assessments - designed for Physical Therapy, Sport Performance, and beyond.
DFMS™ eliminates the need for subjective visual assessment and delivers scalable, objective insight that empowers clinicians, athletic coaches, and surgeons to make faster, and data-backed decisions.
Unlike complex Motion Capture Labs, our fixed-camera, markerless 3D system requires only a one-time setup and no wearables, eliminating technical friction. This enables mass orthopedic screening and high throughput in standard clinics, driving massive scalability and ROI.
We move beyond the "exercise tips" of phone-based 2D apps. We deliver clinically defensible, quantitative assessments of joint function that differentiate joint restrictions from neuromuscular deficits in real-time. This provides actionable outputs a clinician can trust to adjust targeted therapy in-session.
Our core advantage is the ability to compute inter-segmental forces and energy transfer (Inverse Dynamics)—a dynamic performance insight currently unavailable from competitors. This deep, standardized data removes human variability and directly correlates symptomatic improvement with measurable changes in mobility.
We know there are a lot of tools out there—each claiming to be the next big thing in movement analysis. DFMS™ stands apart because it’s more precise, requires less space, and delivers deeper insight in less time.
Our multidisciplinary team combines clinical expertise, sports science, and advanced AI to deliver objective, actionable movement insights for healthcare and performance professionals.
Professor of Aerospace and Mechanical Engineering. An expert in designing engineering systems and healthcare technology. He received the 2020 National Science Foundation (NSF) CAREER Award and Fulbright Scholarship for developing and optimizing multifunctional systems.
![[digital project] app interface showcased on a tablet (for a web design agency)](https://cdn.prod.website-files.com/68dded23d2746735ddf3109f/68e4374c27ef32e44d460662_Janet.png)
Professor of Electrical and Computer Science Engineering. ML, health tech, and wearable sensors expert. She is the director of the Center for Streamlined Healthcare in Place (C2SHIP), an NSF Industry/University Cooperative Research Center that develops healthcare technologies for in-place care.
Distinguished Professor Emeritus at UCLA. He is a member of the National Academy of Engineering and the National Academy of Inventors. World-renowned scientist, inventor, and entrepreneur. Founder and CEO of Cognet Microsystems, a pioneering optical semiconductor company acquired by Intel.
Program manager for a healthcare technology company embedded within the marketing team, specializing in clinical education and student development initiatives. Dedicated to building collaborative programs that connect academia and industry, fostering healthtech innovation and growth.
Seasoned tech evangelist, investor, and former CTO with over 15 years of experience at the intersection of technology, sports, and entertainment. Led over $1.5 billion in successful mergers and acquisitions. Proven innovator and dealmaker driving growth across industries.
![[interface] image of hr software in action (for a hr tech)](https://cdn.prod.website-files.com/68dded23d2746735ddf3109f/68e437de686824dbe48d6ac7_Drchris.png)
Researcher focused on the biomechanics, energetics, and balance of human and animal locomotion. His work advances understanding of stability, muscle-tendon mechanics, and neural coupling to inform rehabilitation, assistive technology, and human performance across athletics, aging, and space-flight.