VR Simulation

Industrial robotics training inside a fully simulated plant.

Operate, program, and troubleshoot industrial robots in a simulated plant environment — without production downtime, equipment risk, or access restrictions. The same operations. The same decisions. Without the consequences of getting it wrong on the real floor.

Request a Demo Back to VR Solutions
  • Standalone headset
  • Hand tracking
  • No equipment risk
  • EN · ES

Through the lens

Stand on the plant floor and run the robots yourself.

This is the view your students get inside the headset: a working industrial cell where they operate, program, and troubleshoot the line with their own hands — no production at stake.

  • Robot programming
  • Line configuration
  • Emergency stop

POV capture — Robotics & Industrial Plant simulation.

What makes it different

  1. No production downtime

    Students practise on a full industrial cell without stopping a single real line. The plant keeps running; the learning happens in the simulation.

  2. No risk to equipment

    Mistakes have no cost. Students operate, program, and diagnose faults without the chance of damaging real robots or hardware — so they can try, fail, and try again.

  3. Human-robot collaboration

    Practise the collaboration scenarios that define modern plants — working alongside the robot, sharing space and tasks safely, and knowing when and how to stop the line.

  4. Unlimited repetition

    Run every operation, fault, and emergency stop as many times as needed, in English or Spanish, with no lab bookings and no cost per extra attempt.

How a session runs

One loop, from setting up the cell to a safe stop.

Students run the full sequence as many times as they need, with no production downtime and no risk to real equipment.

  1. 01

    Configure

    Set up the cell

    The student configures the production line and prepares the robot cell — laying out the work the same way they would on the real floor.

  2. 02

    Operate

    Operate and program

    Hands-on operation and programming of the industrial robot, working through the routines that drive the line.

  3. 03

    Diagnose

    Find the fault

    A fault is introduced. The student diagnoses it and carries out the corrective maintenance the situation calls for.

  4. 04

    Secure

    Safe stop

    The student applies the safety protocol and triggers the emergency stop — practising the response that protects people and equipment.

What it covers

  1. Industrial robot operation and programming

    Hands-on operation and programming of industrial robots — running the routines and movements that drive a real production line.

  2. Production line setup and configuration

    Set up and configure the production line and robot cell, organising the work exactly as it is laid out on the real floor.

  3. Fault diagnosis and corrective maintenance

    Diagnose faults introduced into the line and carry out the corrective maintenance each situation calls for, step by step.

  4. Safety protocols and emergency stops

    Apply plant safety protocols and trigger emergency stops — practising the response that protects people and equipment under pressure.

  5. Human-robot collaboration scenarios

    Work alongside the robot in shared-space scenarios, coordinating tasks and movement safely in the way modern plants operate.

Who it's for

  • Mechatronics and automation vocational programs
  • Industrial engineering programs
  • Manufacturing company technician training
  • Robotics and automation CTE programs

GET STARTED

Bring your industrial training into the simulation era.

No production downtime, no equipment risk — just practice, feedback, and measurable outcomes. See it in a demo.

We'll get back to you within one business day. No spam. Privacy Policy