Structural Architecture
Load-bearing frames, joint housings, and modular prosthetic skeletons.
Models
Modular prosthetic platforms
Upper- and lower-limb systems built for biomechanical accuracy, natural articulation, and scalable research integration.
Platforms
Aument prosthetic systems
Upper-Limb Systems
Modular upper-limb platforms designed for biomechanical accuracy, natural articulation, and integration with real-world research workflows.
Shoulder, elbow, wrist, and hand kinematics with architecture optimized for load paths and human motion.
Lower-Limb Systems
Advanced lower-limb architectures built to replicate human gait, energy transfer, and adaptive terrain response.
Designed for walking, running, and dynamic movement research with sensor-ready mechanical interfaces.
Capabilities
Core model capabilities
Biomechanical Modeling
Human motion analysis translated into mechanical linkages and constraints.
Actuation Systems
Research-ready actuation layouts for controlled and adaptive movement.
Rapid Prototyping
Fast iteration from CAD to functional hardware using lab-scale fabrication.
Sensor Integration
Interfaces for force, position, and biomechanical data acquisition.
Clinical Evaluation
Designed for testing, validation, and future translational research.