Project
Computational Anatomy and Biomechanics
Simulation, Optimization, and Systems
Overview
Computational anatomy incorporates the use of geometric- and statistics-based mathematical techniques to analyze and understand the variation in human form and structure. Biomechanics represents one family of methods by which we can evaluate and understand the biological design of humans — specifically, the relationship between form and function — within the larger contexts of physical abilities and behaviour.
Related Resources
See what’s new.
2023
WorldSmith: Iterative and Expressive Prompting for World Building with a Generative AIUsing multi-modal generative AI to quickly and iteratively visualize…
2022
Learning Dense Reward with Temporal Variant Self-SupervisionRewards play an essential role in reinforcement learning for robotic…
2021
Validating a Termite-Inspired Construction Coordination Mechanism Using an Autonomous RobotMany species of termites build large, structurally complex mounds, and…
2022
CAPRI-Net: Learning Compact CAD Shapes with Adaptive Primitive AssemblyWe introduce CAPRI-Net, a self-supervised neural net-work for learning…
Get in touch
Something pique your interest? Get in touch if you’d like to learn more about Autodesk Research, our projects, people, and potential collaboration opportunities.
Load projects