We are exhibiting at the SmartCity Summit and Expo in Taipei, Taiwan
CyberRobotix is attending the SmartCity Summit & Expo (SCSE) 2025 in Taipei, Taiwan. As a pioneer in cybersecurity and safety for autonomous robots, we will showcase our state-of-the-art simulation environments and testing platforms that ensure robots operate securely and reliably. Appearing as part of the Hungarian Pavilion, we will highlight how our cutting-edge technologies contribute to smarter and safer cities. We warmly invite all attendees to visit our booth and experience firsthand how CyberRobotix is shaping the future of secure autonomous robotics.
CyberRobotix Technologies
CyberRobotix offers a comprehensive simulation environment for autonomous systems, accommodating everything from individual robots through cooperating agents to entire swarms. We can simulate single robots in various virtual scenarios to test their safety and reliability under different conditions. Our platform also supports simulations of multiple cooperating robots, allowing us to evaluate teamwork dynamics, communication protocols, and coordinated task execution while ensuring no new risks emerge. For more complex deployments, we simulate large-scale swarms of robots to study their collective behavior and maintain stability and security even in dynamic or adversarial environments. This range – from single units to swarms – ensures that robotics solutions can be rigorously tested for fault tolerance, coordination, and resilience before they are deployed in the real world.
Powering these rich simulation environments are advanced technologies that bridge the gap between virtual testing and real-world operation. We employ Digital Twin models that create realistic 3D representations of each robot, with full emulation of sensors and physics, so that a robot experiences the simulation as if it were the real world.
Our Software-in-the-Loop (SiL) framework allows the exact same control algorithms and AI neural networks used on real robots to be run in simulation. Similarly, Hardware-in-the-Loop (HiL) capabilities mean we can integrate actual hardware components or electronics into the simulation, providing an identical execution environment as a live deployment. Uniquely, CyberRobotix also includes HSM-in-the-Loop technology – incorporating Hardware Security Modules into the test cycle – to provide a root-of-trust for robot identity and communications. This strong encryption-based approach ensures that security features are not just an afterthought but are built into the robot’s operations from the ground up.
To support these simulations, CyberRobotix has developed powerful testing hardware platforms (testbeds). Our integrated solution, the CRxAI Cluster 48wHSM is a high-performance computing cluster composed of 48 NVIDIA Jetson Orin Nano modules (based on NVIDIA’s Ampere architecture), delivering up to 3216 TOPS of AI processing power, which pairs each of the 48 computing nodes with an Infineon Optiga TPM 2.0 hardware security module. This unique setup enables us to perform encryption, authentication, and secure storage tests as part of our simulations, perfectly mirroring real-world secure deployments. Together, these technologies and testbeds demonstrate CyberRobotix’s commitment to providing a full-stack solution – from virtual environment to physical hardware – for developing and validating autonomous robots.
Cybersecurity & Safety
In the realm of autonomous robotics, cybersecurity and functional safety are absolutely critical. Unlike ordinary consumer devices, robots can move through and interact with the physical world, so any security breach or malfunction can have serious real-world consequences.
CyberRobotix recognizes that security and safety requirements for autonomous robots must be orders of magnitude stricter than those for earlier consumer products. A hacked or faulty robot in a public space isn’t just a data risk; it could cause property damage or even endanger lives. That’s why our simulations are designed to rigorously test robots against cyber-attacks, communication failures, and other fault conditions in a safe virtual setting. We integrate strong encryption and authentication mechanisms (including the use of hardware security modules for identity verification to ensure that robots maintain secure communications and cannot be easily spoofed or taken over. By subjecting robots to these worst-case scenarios in our testbeds, we help uncover vulnerabilities and edge cases early. This proactive approach to cybersecurity and safety gives developers and stakeholders confidence that robots tested with CyberRobotix will behave predictably and safely even under unexpected or malicious conditions. In short, safety and security are not just features of our platform – they are the foundation of everything we do at CyberRobotix.
Invitation
We cordially invite you to visit CyberRobotix at the SmartCity Summit & Expo 2025 in Taipei as we showcase our innovations. The event takes place from March 18–21, 2025, at the Taipei Nangang Exhibition Center (Hall 2). You will find us at the Hungarian Pavilion at Booth No. Q820, where our team will be on hand to provide live demonstrations of our simulation environments and testbeds.