Due diligence is paramount to the satisfaction of our customers.Automated Guided Vehicles (AGVs) also are recognised through different names including LGV (Laser-Guided Vehicle), Mobile Robots, SGV (Self-Guided Vehicle), Guided Carts, Autonomous Vehicles, and Driverless Vehicles. All prototypes are tested for extended periods of time to verify the quality and the duration will work perfectly before sending production parts to customers. TZBOT's product are used in a myriad of application, including but not limited to: Forklifts, AGV, Aerial Platforms, Airport Machines, Agricultural Machines, Hydraulic Applications, Floor Scrubbers, Sweepers, Wind Energy, Marine, and in the field of Medical Devices. Today, TZBOT can quickly design and produce engines and special parts request from customers. Continued investment in the most modern machinery has further increased and developed the quality and flexibility of each product. TZBOT has come to be recognized as one of the biggest suppliers of electric drive. They have a strong presence in domestic and international markets, as well as, great production flexibility. The core to TZBOT's growth is the constant dedication to the pursuit of full customer satisfaction.
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TZBOT continues to bring excellent products, technological innovation and ease of customizing to the automated equipment. Zhejiang Tongzhu Technology Co., Ltd founded 2015, in ZHEJIANG designs, manufactures and sells agv, driving wheel assembly, DC/AC motors, encoder, reducer, controller, caster wheel, gear, Pu wheel, motor in wheel units and all over the world. SLAM robots are widely used in various industries, such as intelligent logistics and distribution, intelligent medical care, smart home services, etc., which bring convenience and better quality of life to people.The continuous updating and upgrading of SLAM robots also bring more functions and services to users, such as voice interaction, machine vision, etc., which makes SLAM robots become an intelligent robot with unlimited potential. In the field of unmanned vehicles, SLAM technology can provide visual odometry functions and integrate with other positioning methods such as GPS, so as to meet the needs of unmanned vehicles for accurate positioning. In the field of drones, SLAM can quickly build local 3D maps, and combined with geographic information system (GIS) and visual object recognition technology, it can assist drones in recognizing roadblocks and automatically avoiding obstacles and planning paths.
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In the field of VR/AR, SLAM technology can build maps with more realistic visual effects, thus rendering the superimposed effect of virtual objects for the current viewpoint, making it more realistic without any sense of dissonance. For example, SLAM technology allows sweeping robots to efficiently draw indoor maps, intelligently analyze and plan sweeping environments, thus successfully allowing themselves to step into the array of intelligent navigation. This technology can help robots perform tasks such as path planning, autonomous exploration, and navigation. Its powerful obstacle avoidance technology can greatly improve work efficiency and ensure the safety of robot operation. In SLAM robot, the SLAM robot uses advanced LIDAR and camera technology to accurately acquire information about the surrounding environment and realize autonomous map building and 3D localization, enabling the robot to complete tasks efficiently.
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SLAM robot is a robotic product that applies SLAM (Simultaneous Localization and Mapping) technology, a computational method used to build or update maps of unknown environments while tracking an agent's position within them.