Human-Robot Hybrid Manufacture

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Human-Robot Hybrid Manufacturing

Human-Robot Hybrid Manufacture

This pilot aims at training and supporting workers to interact with physical equipment and manufacturing robots through digital twins.

Process Summary

This pilot aims to train workers to interact with physical equipment and manufacturing robots through digital twins, using XR technology to simulate robot training in a virtual environment. This reduces wear and tear on physical robots, allowing human operators to issue commands and monitor performance in real-time, improving human-robot interaction and extending the useful life of the robots.

Advantages For End User & Innovation Potential

  • Ensure that human workers can interact safely and effectively with intelligent systems and that the manufacturing process runs smoothly and efficiently.
  • Improvement on scalability, safety, efficiency, resilience, service quality & operating costs.
  • Reduce the cost of learning through the use of synthetic data produced by the HPC.
  • Accelerate the design processes of intelligent mobile cyber-physical systems, from the simulation of the physical ones to the behaviour of the complete system in a simulated environment.
  • Support the adaptation and collaboration of Mobots through faster learning than the SOTA in Industry