prosthetics-design-optimizer

Solid

Prosthetics and orthotics design optimization skill integrating biomechanical requirements with manufacturing constraints

AI & Automation 814 stars 53 forks Updated today MIT

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Skill Content

# Prosthetics Design Optimizer Skill ## Purpose The Prosthetics Design Optimizer Skill supports design optimization of prosthetics and orthotics, integrating biomechanical analysis, patient-specific customization, and manufacturing constraints. ## Capabilities - Socket design parameterization - Load distribution analysis - Alignment optimization - Component selection guidance - Suspension system design - Cosmesis integration - Patient-specific customization from scanning - Gait analysis integration - Comfort assessment metrics - Range of motion optimization - Weight optimization ## Usage Guidelines ### When to Use - Designing prosthetic/orthotic devices - Optimizing socket fit - Selecting components - Customizing for individual patients ### Prerequisites - Patient assessment completed - Residual limb/anatomy scanned - Activity level determined - Component options identified ### Best Practices - Integrate gait analysis data - Optimize for patient activity level - Consider long-term wear patterns - Plan for adjustment needs ## Process Integration This skill integrates with the following processes: - Gait Analysis and Musculoskeletal Modeling - Finite Element Analysis for Medical Devices - Design Control Process Implementation - Human Factors Engineering and Usability ## Dependencies - CAD/CAM systems - 3D scanning systems - OpenSim - Gait analysis data - Component databases ## Configuration ```yaml prosthetics-design-optimizer: device-types: - transtibial ...

Details

Author: a5c-ai
Repository: a5c-ai/babysitter
Created: 4 months ago
Last Updated: today
Language: JavaScript
License: MIT

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