Goldmund develops advanced robotics and lidar technology that extends the boundaries of autonomous exploration. Our innovative platform combines state-of-the-art hardware with advanced software to enable emergency services and researchers to safely explore buildings and environments without endangering human lives.
The robot dog, with its compact and robust design, effortlessly navigates through tight, enclosed spaces and delivers real-time data that seamlessly integrates with our 3D software. This creates an accurate situational overview that enables quick, informed decision-making in critical situations.
The system is specifically designed to overcome small obstacles and recover from falls, making it particularly reliable when exploring a mix of environments and situations. By continuing to innovate and research, we are expanding the capabilities of this technology from a software perspective.
The platform offers a comprehensive set of advanced features:
The robotics platform is built with state-of-the-art technologies, focused on reliability, performance, and innovation. The hardware integrates advanced lidar sensors and camera systems, while the software stack uses modern algorithms for autonomous navigation and real-time data processing. The platform combines machine learning for environment recognition, advanced pathfinding for efficient navigation, and real-time 3D rendering for situational awareness. These technical innovations make it possible to safely and effectively explore complex environments.
The robotics platform has had a significant impact on the capabilities of emergency services and researchers to explore complex environments. By combining autonomous navigation and real-time data integration, the system is able to quickly and safely gather valuable information in situations where human access is dangerous or impossible. The successful implementation has led to improved situational awareness, faster reaction times, and better decision-making in critical situations. The platform also serves as a valuable research instrument for further innovation in robotics and autonomous systems.
