The Walker S1 robot of UBTech Robotics has started working at the new Audi-Faw energy factory in China.
This is the first human -shaped robot to be included in the global production system of Audi, also the first human -shaped robot in the world to be implemented in the high -end car production line, Interesting Engineering On March 28 reported. In January, UBTech Robotics also announced a plan to start producing a series of human -shaped robots before the end of the year, aiming to provide 500 – 1,000 Walker S line industrial robots.
The human -shaped robot of Chinese company UBTech Robotics works in the automobile factory. Image: UBTech Robotics
Walker S1 performs essential quality testing tasks, including detection of cooling agents in the air -conditioning system. This work was previously undertaken by humans, leading to the risk of respiratory tract affected. Despite being considered low risk, exposure to volatile gases still cause concern. Therefore, this becomes an ideal task for robots.
The Walker S1 has the ability to identify the image in less than 70 milliseconds and the ability to control motion accurately. It weighs 76 kg, 172 cm high and can be loaded up to 15 kg without losing stability. UBTech Robotics said the ability to control the adaptive motion allows robots to operate in challenging environments and overcome complex terrain. The robot is equipped with a multimodal sensor, which can operate around the clock and have high structural stability.
In addition to Audi, some large manufacturers such as BYD, Zeekr, Geely and Foxconn also use UBTECH Walker S series and more than 500 robots have been pre -ordered. At the BYD factory in Shenzhen, Walker S1 helps to increase the efficiency of classification of 120%, while at the Chengdu base of Lynk & Co, the warehouse processing time decreased by 40% and the labor cost decreased by 65% thanks to in collaboration with automatic forklifts.
UBTech Robotics has recently made a breakthrough in making many human robots work together. UBTech Robotics’s BrainNet system enhances the coordination of them by using cloud deduction buttons and skill buttons, creating a “super brain” and a “smart auxiliary brain” in the herd intellectual system.
Super brain uses a smart decision making process with a large -scale multimodal reasoning model to handle complex tasks on the production line. The auxiliary brain supports many robots and multi -field awareness, allowing faster learning and deploying skills.
According to UBTech Robotics, these advances help increase the coordination on the production line by allowing the robot -shaped robot to operate in addition to its own tasks. Using deep theoretical technology DeepSeeK-R1, super brain analyzes huge amounts of data to make theory, ensuring the robot works more effectively.