Cutting-edge robotics and artificial intelligence technology are entering commercial security with Foxlink and Luminys Systems Corp. unveiling their next-generation robotic dog. Showcased at GTC Taipei 2025, this new platform is developed in collaboration with SYNC ROBOTIC, leveraging NVIDIA’s AI and computing solutions to deliver advanced capabilities such as facial recognition, modular sensors, and autonomous navigation. The initiative brings together global expertise from the U.S. and Taiwan, signaling a shift toward integrated, scalable solutions for modern enterprises. The market for AI-driven robotics in security is expanding, and industry observers are closely watching how this partnership will compete in the rapidly growing sector.
Robotic dogs for security have previously surfaced at international technology shows, but past models often lacked the robust AI features now present in Foxlink’s system. Earlier products mostly relied on basic sensors and remote controls, limiting their adaptability in dynamic situations. The new development from Luminys and Foxlink offers enhanced autonomy and environment interaction, setting it apart from comparable devices launched by regional competitors and addressing longstanding demands for automated patrol and monitoring tools in both public and private sectors.
How Does the Robotic Dog Improve Security Measures?
Equipped with NVIDIA Jetson AGX Orin, GR00T N1, and supported by Isaac Sim, the robotic dog integrates facial recognition and SLAM navigation for efficient, autonomous patrols. Its modular sensor array detects abnormal heat and collects real-time environmental data, contributing to accurate risk detection. The integration of NVIDIA ReMEmbR and large language models provides the device with advanced reasoning, memory, and decision-making skills, enhancing its ability to respond to evolving security needs.
What Drives the Foxlink, Luminys, and SYNC ROBOTIC Partnership?
SYNC ROBOTIC handles prototyping and customer feedback in Taiwan, while Ubilink supplies the necessary supercomputing infrastructure for AI and robotics development. Luminys, as the U.S. subsidiary, guides deployment strategies tailored to enterprise security requirements.
Luminys chairman Freddy Kuo said, “We’re applying AI to the world’s toughest problems—security, safety, and mobility.”
The companies work together to deliver a vertically integrated development and deployment process spanning multiple geographies.
Where Will These Solutions Be Deployed?
The target applications extend to enterprise campuses, industrial parks, and areas requiring disaster response or regular patrolling. By creating a globally coordinated development pipeline, the partners position the platform for scalable rollout across markets in both Asia and the United States. Additional products, such as the GR00T Dexterous Hand, highlight the company’s expansion beyond mobile security robots into broader manufacturing and automation tasks, although they serve distinct functions from the robotic dog.
The tripartite structure between Luminys, Foxlink, and SYNC ROBOTIC is designed to streamline adaptation and scaling for diverse environments. Using Ubilink’s supercomputing resources accelerates AI training, while SYNC ROBOTIC’s field lab ensures real-world performance and validation. This comprehensive approach blends research, prototyping, and deployment, aiming to deliver solutions that meet increasing demand for smart security systems. Unlike some past offerings that focused on single capabilities, this ecosystem aims for both integration and scalability, reflecting a maturing robotics sector.
Advanced AI-powered robotics in security now offer features far beyond remote surveillance, moving toward genuine autonomous monitoring, environmental mapping, and human-robot interaction. Companies interested in updating or supplementing their security systems may consider such technology, evaluating both deployment costs and the specialized support required for seamless integration. Attention to maintenance, data privacy, and operator training will remain important, particularly as these platforms are rolled out in sensitive or regulated environments.
