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Accelerate Exoskeleton Validation: From Prototype to the Factory floor in Days, Not Months
An integrative cloud platform built for device makers and compliance teams, enabling rapid functional testing, regulatory compliance workflows, and real‑time analytics for exoskeletons.
ViveLab Exo is a digital platform designed to objectively evaluate and validate industrial exoskeletons. It connects motion capture, ergonomic analysis, and standardized reporting into one workflow, turning biomechanical data into actionable insights that accelerate safe and effective exoskeleton adoption.
Industrial exoskeleton adoption is slowed by lack of objective data
Companies struggle to prove ergonomic impact, justify ROI, and make safe, evidence‑based decisions. ViveLab ‑ Exo changes that with standardized, scientific analysis.
ViveLab‑Exo captures motion and workplace data, applies validated ergonomic algorithms, innovative TIE (Torque–Intensity–Energy) Model and generates automated reports showing the measurable benefits of exoskeleton use. The result: data you can trust, reports you can share, and faster decisions backed by science.
Leveraging robust biomechanical modelling and internationally recognised ergonomic standards, ViveLab-Exo doesn’t just estimate outcomes — it quantifies them. By processing structured task descriptions or motion capture uploads to compute joint torques and map exoskeleton support across the full movement cycle, the platform identifies which devices deliver real, measurable reductions in strain and workload. Automated, standardised PDF reports provide decision-makers with clear evidence of biomechanical impact, including torque-based risk assessments and pre-assessment guidance on optimal exoskeleton match-ups, removing guesswork from ergonomic investment decisions.
Your End-to-End Platform for Data-Driven Exoskeleton Evaluation and Ergonomic Optimization
ViveLab ‑ Exo provides a digital database of industry Motion Capture Data with production context and metadata enabling and enhancing the programing and machine learning for humanoid robots for industrial applications.
Features
- Data capture via motion sensors MVN, MVNX, or equivalent BVH file
- Automated ergonomic analysis (RULA, OWAS, ISO)
- Exoskeleton recommendation engine
- Detailed visual and PDF reports
- Credit‑based PayPal transactions for easy scaling
- Multi‑user and multi‑companymanagement
Key Benefits
- Quantify ergonomic improvement
- Compare multiple exoskeletons objectively
- Justify investment decisions with data
- Support worker health and reduce MSD risk
- Accelerate time‑to‑deployment for exoskeleton programs
Use Cases
- Manufacturing and assembly operations
- Logistics and warehouse environments
- Automotive and aerospace maintenance
- Research and ergonomics testing labs
- Exoskeleton distributors and consultants