JoDyn (Joint Dynamics) is software for analyzing body movements.
Using optical motion capture and force plates, we will perform inverse kinematics and inverse dynamics with the data obtained from the movement of body segments (marker positions) and ground reaction forces in the body motion dynamics analysis software JoDyn. Kinematic and dynamic results such as body segment positions, joint angles, joint moments, and joint reactions can be easily calculated by simply selecting the analysis items.
Inquire About This Product
basic information
JoDyn (Joint Dynamics) can perform inverse kinematics and inverse dynamics analysis by inputting marker position data measured by a motion capture system and ground reaction force data measured by a force plate, while setting the subject's height, weight, and the sampling frequencies of the motion capture system and force plate. It is capable of calculating body segment positions, velocities, accelerations, angular velocities, angular accelerations, joint angles of the lower limbs, joint moments, joint reactions, and more. Additionally, we offer contract analysis and modeling services.
Price range
Delivery Time
Applications/Examples of results
Human motion analysis, orthopedic rehabilitation, joint surgery navigation, artificial joint evaluation, ligament reconstruction evaluation, meniscus tear evaluation, orthotic therapy, sports performance, physical biomechanics, exercise neuroscience, human-machine interaction, educational support for anatomy and rehabilitation, ergonomics, and more can be widely utilized in industry, academic research, and education.
Company information
Our company develops, designs, manufactures, and sells measurement, analysis, and sensing systems for body movements aimed at research and development in collaboration with academia and industry. We also provide contracted analysis of body movements, develop, design, manufacture, and sell assistive devices for body movements, and offer services centered around STEM education to promote the social dissemination of human biomechanics. Using the human motion analysis systems we have developed, we are working to elucidate the mechanisms of human body movements. We, who advocate "Technology for Human," aim to improve the quality of life for people by aligning our research and development with their needs, striving to create innovative and practical technologies.