Stanford’s Biomechanical Engineering program combines mechanical principles with human biology to design systems that support or mimic the musculoskeletal system. These project ideas are designed for undergraduates interested in creating breakthrough rehabilitation devices, orthopedic simulations, and biomechatronics systems.
Design and Testing of Wearable Robotic Exoskeletons
Biomechanical Simulation of Human Gait Using OpenSim
Smart Knee Braces for ACL Injury Recovery
3D Printed Prosthetic Limbs with Adaptive Grip Control
Modeling and Analysis of Spinal Mechanics Under Load
EMG-Based Control Systems for Assistive Devices
Soft Robotic Gloves for Stroke Rehabilitation
Implant Design for Minimally Invasive Hip Replacement
Bioinspired Joint Mechanisms for Robotic Limbs
Smart Insoles for Real-Time Posture Correction
Design Optimization of Orthopedic Implants
Finite Element Analysis of Bone Fracture Fixation Plates
Force Sensor Integration in Wearable Rehab Devices
Real-Time Muscle Force Estimation Using Sensor Data
Tendon-Bone Interface Simulation for Injury Prevention
Robotic Arm for Physical Therapy with Adaptive Feedback
Electromechanical Analysis of Bionic Hands
Simulation of Lower Limb Prosthesis in Running Gaits
AI-Assisted Motion Analysis for Rehab Progress Tracking
Development of Portable Motion Capture Systems for Clinics
Whether you're designing a wearable exoskeleton or simulating joint mechanics, Collexa is here to support your biomechanical innovation journey at Stanford.
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