CyberRobotix.AI
Testbeds, simulation environment for cybersecurity
and safety evaluations of autonomous robots and swarms
Cybersecurity and safety requirements towards autonomous robots are orders of magnitude stricter compared to any earlier consumer products.
The danger of hacking robots that can freely move around in public places may tragically lead to lethal consequences.
The stakes are getting higher.
SIMULATIONS FOR
Single robots
- Simulation environment to test the safety of individual robots in various simulated scenarios
- Stress testing for security, fault tolerance and operational integrity under different environmental conditions
Cooperating robots
- Simulation of multiple robots working together
- Testing cooperation mechanisms, communication protocols and coordinated task execution
- Safety and security validation ensuring that cooperation does not lead to emergent risks
Swarms
- Simulating large-scale swarms of autonomous robots
- Ensuring the swarm’s collective behavior remains secure, safe and stable even under complex, dynamic and potentially adversarial conditions
TECHNOLOGIES
Digital Twins
- A realistic 3D model of the robot’s body is used in simulation
- All sensors are emulated as a virtual reality for robots
- Commands towards robotic actuators control the movement within the simulation
Software-in-the-Loop
- SiL technology ensures that the same control algorithms and neural networks are used for testing and for real operations
- Support for hybrid solutions of combining cloud based remote control with on device edge computing
Hardware-in-the-Loop
- HiL technology provides identical execution environment in simulation and in reality
- Simulated connections to sensors and actuators should be solved at electronics level
HSM-in-the-Loop
- For secure and reliable identification of robots the root of trust is provided by a Hardware Security Module
- Strong encryption based solutions
TESTBEDS
CRxAI Cluster 24
- Cluster of 24 NVIDIA Jetson Orin Nano
- NVIDIA Ampere architecture GPUs
- 1608 TOPS performance
- 192 GB RAM
- 48 TB SSD
CRxAI Cluster 48
- Cluster of 48 NVIDIA Jetson Orin Nano
- NVIDIA Ampere architecture GPUs
- 3216 TOPS performance
- 384 GB RAM
- 96 TB SSD
CRxAI Cluster 48wHSM
- Cluster of 48 NVIDIA Jetson Orin Nano
- NVIDIA Ampere architecture GPUs
- 3216 TOPS performance
- 384 GB RAM
- 96 TB SSD
- 48 Infineon Optiga TPM 2.0
NEWS
CyberRobotix goes to the AI-WAVE World AI Vision Exhibition, Taipei, Taiwan
CyberRobotix is honored to be invited by the Taipei Computer Association to participate in the AI-WAVE World AI Vision Exhibition, taking place from 31 July to 2 August 2025 in Taipei. Amidst Taiwan’s leadership in advanced AI chip design and a thriving AI robotics ecosystem, we will present our pioneering Swarm-level Security solutions. Our technologies go beyond evaluating individual robots, ensuring interoperability and resilience across entire fleets – crucial for a safe and secure autonomous future.
Meet us at the GITEX Europe Exhibition in Berlin, Germany
The future of robotics is here – and so are its risks. As autonomous systems become an integral part of smart cities, CyberRobotix is committed to addressing the challenges of this new era. At GITEX Europe 2025, we will present our innovative approach to securing robotics, introducing a new level of defense: Swarm-level Security. Visit us at the Hungarian Pavilion, Hall 6.2, Booth C60, and see how we are securing the future of autonomy.
We are participating at the International B2B Software Days 2025, Wien, Austria
CyberRobotix will participate in the 8th International B2B Software Days, taking place on May 19–20, 2025, at Vienna City Hall. This premier European event brings together over 1,100 participants for keynotes, workshops, and B2B matchmaking sessions focused on the future of digital business. We look forward to engaging with innovators, researchers, and industry leaders to discuss the critical role of cybersecurity and safety in autonomous robotics. Join us in Vienna or connect with us via the event’s matchmaking platform.