R3 Robotics is developing the AI-powered dismantling platform that transforms end-of-life electric vehicle systems into strategic sources of critical materials. As global electrification accelerates, the surge in batteries and e-motors requires automated solutions that manual disassembly cannot provide. We are addressing this industrial bottleneck by enabling the automated dismantling of complex systems at scale through computer vision, artificial intelligence, and specialized robotic tooling.
Following a successful €20M Series A funding round led by HG Ventures and Suma Capital, we are expanding across Europe and preparing for our entry into the United States market in 2026. We partner with major industrial recyclers and automotive OEMs to deliver measurable impact. If you seek to work on advanced robotics within a well-funded organization scaling internationally, this is your opportunity.
Your Role
We are looking for a Senior Simulation Engineer to own and build our simulation infrastructure from the ground up. You will design and implement the pipeline that connects our 3D scanning, robot programming, and recipe validation workflows into a unified simulation environment.
This is an extremely hands-on role!
Your Responsibilities
- Evaluate, select, and implement the simulation stack for R3's robotic disassembly cells, integrating across robot programming, middleware, and CAD environments.
- Build and maintain an automated recipe validation pipeline: ingest battery pack 3D scans, run candidate disassembly recipes in simulation, check for collisions, reachability, and force limits, and output validated programs ready for deployment.
- Establish and maintain a single geometric source of truth across simulation, robot controller, and CAD ensuring that coordinates validated in simulation transfer to the physical machine without manual adjustment.
- Develop PLC emulation and virtual commissioning capabilities to enable high-fidelity testing of safety interlocks, sensor triggers, and I/O sequences without requiring the physical cell.
- Design the simulation architecture to support layered fidelity: fast kinematic checks for rapid iteration and full dynamic simulation for final validation.
- Collaborate with the middleware, perception, and mechanical design teams to ensure simulation models stay synchronized with the evolving robotic cell design.
- Create CI/CD workflows for simulation: automated regression testing of recipes before deployment, version-controlled simulation assets, reproducible test environments.
- Contribute to the long-term architecture for ML-assisted recipe generation using simulation as the feedback loop.
- Document simulation procedures, validation criteria, and deployment best practices.