Motion Analysis
Sports Science
Athletes suffer from sports injuries as high as 60% at the beginning of their careers, which will usually have a very serious impact on their later sports careers. Therefore, through sports science analysis, objective analysis and evaluation of data are used to assist coaches in improving training results. While maximizing and strengthening training efficiency, it can avoid sports injuries and improve the overall performance of players.
Founding team has 40+ years of experience building biomechanical software
Solve the world's toughest movement analysis problems for academic, industrial and professional sports organizations using novel motion capture technology from leveraging machine vision and artificial intelligence.
Our proprietary feature detection algorithms are trained on millions of images and used on the highest performing athletes in the world.
THEIA 3D
- Record synchronized color video from a multi-camera system.
- Theia3D's Artificial Intelligence automatically constructs a high-fidelity 3D model from key anatomical features.
- Export your 3D model to Visual3D for integrated kinematic and kinetic analysis.
01 Simple
Streamline data collection by eliminating the need for cumbersome marker sets and lengthy instrumentation protocols. Get straight to work collecting data, then process it with a single click. Automatically building models and exporting them to Visual3D.
02 Powerful
Automatic joint detection allows users to focus on analysis and inquiry rather than labeling and data processing.
03 Versatile
Measure athletes where they compete. Assess patients at home or in the clinic. Study participants in the real world and collect data anywhere without restrictions from poor lighting conditions or crowded collection volumes.
With a high-speed camera, it can accurately record the moment of every action
- Stories with internal records
- Analog sensor
- Interchangeable lenses
- Internal video recording
- Multi-machine synchronization
- Real-time video surveillance
Improving Motion Capture for All
Researchers
Improve data collection protocols and spend more time investigating novel research questions.
Participants
Move naturally and unencumbered by uncomfortable marker sets.
Organizations
Stand out by offering world-class biomechanical tools and services to your clients.
Use-cases
USA University of Southern California
Principal Investigator: Susan Sigward, PhD, PT, ATC
Dr. Susan Sigward is the Director of the Human Performance Laboratory at the Competitive Athletic Training Zone, Physical Therapy Institute and Sports Performance Center in Pasadena, California. She researches the identification and correction of impaired mechanics related to lower-extremity injuries, with a focus on knee injuries. Her work describes how factors such as experience, age, training, and sex influence the development of movements that lead to anterior cruciate ligament (ACL) injuries. Her current studies are focused on rehabilitation following ACL reconstruction, with an emphasis on the effects of early rehabilitation interventions on long-term outcomes.
Japan Hokusho University
Principal Investigator: Keizo Yamamoto, PhD
Keizo Yamamoto received his PhD in Biomechanics and Engineering from Hokkaido University in 2004. He is a professor at the School of Lifelong Sport in the Department of Sport Education at Hokusho University. His research blends kinesiology, biomechanics, and motion analysis to develop an understanding of sports performance, gait, and human movement. More specifically, his research focuses on the kinematics and aerodynamics of ski jumping, which include takeoff operation and initial flight phase, left-right differences in cross country skiing and skating, drive operation, and the calculation of fluid dynamics and airflow visualization in these sports.
USA High Point University
Principal Investigator: Kevin R. Ford, PhD, FACSM
Kevin R. Ford is Dean of the Congdon School of Health Sciences and Professor in the Department of Physical Therapy at High Point University. Dr. Ford is an accomplished researcher in sports medicine and biomechanics. He has published over 160 peer-reviewed articles, which have been referenced over 20,000 times in leading medical journals such as New England Journal of Medicine, British Medical Journal, and American Journal of Sports Medicine. His research involves innovative studies that answer the questions of why devastating injuries occur and how they can be prevented. He analyzes the biomechanics of complex movement patterns and sport skills that relate to prevention of injury or enhanced performance in a variety of populations from healthy athletes to patients suffering from traumatic injuries.