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Description
Open SDK platform, customised development, reduced developmentcosts
Intelligent obstacle avoidance
Cloud service platform
Remote navigation deployment
Independent suspension structure
The ATEAGO S5 Mobile Robot Chassis is equipped with a navigation and positioning system, using 270-degree LIDAR and double 3D cameras. Its driving wheels are designed with an independent suspension structure, significantly improving the smoothness of the robots motion. Moreover, the SDK platform is open to all developers, providing a comprehensive set of development documentation to help developers quickly validate and develop robot applications.
The platform offers a completely open hardware and software platform, with an API interface and extensive technical support documentation to assist product development. Furthermore, it is extremely scalable, enabling users to customize the upper layer of the application architecture according to their requirements. Additionally, it supports remote navigation to build a map for deployment and real-time display of the robot chassis operating status, thus saving time and making it easier to operate.
The S5 chassis is made of sheet metal construction, with a large capacity of 60 kg and excellent stability and durability. It is equipped with 270-degree autonomous obstacle avoidance, flexible steering, and stable and safe operation. Moreover, it supports remote navigation to build maps, allowing for easy and fast robot installation and deployment. The independent suspension structure ensures smoother robot movements, smooth steering and less wobbling.
The autonomous dispatch system allows for multi-machine collaboration and dynamic adjustment of robot avoidance according to task priority, thus enabling efficient and stable delivery. The chassis also has an automatic recharging feature, allowing it to automatically return to charging when the power level falls below the minimum, without requiring manual operation. Finally, the independent suspension structure ensures that during the movement of the robot, the posture is smoother, the steering action is small, and there is no tipping, effectively reducing problems such as slipping of items during delivery.
