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Phoebus P350
Laser and vision fusion navigation, 300kg payload capacity, multiple expansion forms with lifting and non-lifting options
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Laser and vision fusion navigation, 300kg payload capacity, multiple expansion forms with lifting and non-lifting options
Learn MoreSLAMTEC robot platforms are designed for mobile robot projects that require rapid deployment and stable mobility. Centered around reliable movement, localization, and navigation capabilities, each robot platform integrates LiDAR and a navigation kit, allowing it to be directly used for mapping, localization, and path planning. This significantly lowers the barrier to building mobile capabilities from the ground up.
In practical applications, a robot platform serves as the mobile foundation of the system, supporting upper structures or functional modules such as racks, robotic arms, task-specific equipment, or interactive terminals. These platforms are commonly deployed in indoor environments including warehouses, office buildings, campuses, and commercial spaces to perform repetitive mobility and point-to-point execution tasks. By using a robot platform—sometimes also referred to as a robot base or robot chassis—developers can focus their efforts on integrating and optimizing their own application logic rather than building the underlying navigation system.
Overall, robot platforms are well suited for teams looking to shorten development cycles and reduce the workload associated with low-level system tuning. As application requirements evolve, functionality can be extended by modifying upper structures or business logic while keeping the robot platform and navigation system unchanged, enabling flexible system expansion over time.
Yes. The robot platform can use SLAMTEC's elevator control system or integrate with a customer's own system. For customer-provided solutions, SLAMTEC offers elevator access control and interface support, with implementation tailored to specific project requirements.
Yes. The robot platform integrates LiDAR and navigation modules, allowing environment mapping during navigation to target points via RoboStudio's “point-to-point” method. Fully autonomous exploratory mapping requires customers to develop the logic using the provided interfaces.
Yes. The robot platform provides a mature SDK and open interfaces, supporting cross-platform secondary development to facilitate integration into users' robotic or business systems. Interfaces and development methods can be confirmed according to specific project requirements.
The robot platform can operate in long corridors or similar environments. In areas with few features or repetitive structures, adding environmental features or making local modifications can improve localization and navigation stability.
The robot platform integrates LiDAR and navigation functions. Users primarily need to integrate the upper-module according to project requirements, such as shelving structures, robotic arms, business control systems, or human–machine interaction modules. The robot platform provides stable basic mobility, localization, and navigation capabilities.
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