LimX Dynamics TRON 2 EDU 2-in-1 Embodied Robot (Wheeled Legs & Sole) (US)
Two switchable locomotion modes: Wheeled Legs for high-speed traversal and Sole for bipedal stair climbing
Wheeled Legs mode supports up to 5 m/s speed, 30° incline, and 30 kg ground payload
Sole bipedal mode handles stairs and 15° inclines with up to 20 cm step clearance
Intel Core i7-1165G7 AI computing module with 2 TB storage and full ROS1/ROS2 support
Swappable 9 Ah ternary lithium battery with auto-recharging support in Wheeled Legs mode
Python and C++ SDK compatible with NVIDIA Isaac Sim, MuJoCo, and Gazebo simulators
LimX Dynamics TRON 2 EDU 2-in-1 Embodied Robot (US) is a dual-mode mobile locomotion platform developed by LimX Dynamics, combining high-speed wheeled mobility with bipedal stair-climbing capability in a single modular system. The Wheeled Legs configuration enables fast, stable traversal across flat and inclined surfaces with a substantial ground payload capacity and auto-recharging support, making it suitable for extended autonomous operation in research and industrial settings. Switching to the Sole bipedal configuration activates stair-climbing ability using visual motion planning input, allowing the robot to navigate step-based environments that wheeled systems cannot access. The platform is designed for mobile robotics research teams, reinforcement learning labs, and field deployment programs requiring adaptable locomotion across diverse real-world terrain types.
A waist-mounted RGB-D camera provides the primary spatial perception input for navigation planning and obstacle awareness across both locomotion modes. The onboard Intel computing module supports the full VLA development workflow, from data logging and annotation through to model training and autonomous task deployment, all within the integrated platform interface. Open SDK access in Python and C++ exposes both high-level and low-level motion control interfaces with ROS1 and ROS2 compatibility, and the platform includes clear URDF models validated for Sim2Real performance in NVIDIA Isaac Sim, MuJoCo, and Gazebo. This autonomous robot platform is well suited to university locomotion research programs, embodied AI navigation studies, and organizations developing multi-terrain mobile solutions for commercial or industrial deployment.
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Max Speed (Wheeled)
5 m/s
Max Speed (Sole)
3 m/s
Ground Payload
30 kg
Max Step Height
20 cm
Battery Capacity
9 Ah
Model Features
Two switchable locomotion modes in one platform, optimized for high-speed traversal, steep incline handling, and step navigation across diverse real-world terrain.
A dual-mode mobile platform that combines all-terrain locomotion research with a complete onboard AI development stack, ready for navigation, reinforcement learning, and field deployment work.
Dual-Mode Locomotion
Wheeled Legs mode delivers high-speed traversal with steep incline handling and a high ground payload capacity, while Sole mode activates bipedal stair climbing using visual navigation input. Switching between modes allows the same platform to operate across environments that a single locomotion type cannot fully address.
Integrated VLA Development
The onboard platform handles the full research pipeline from data acquisition and annotation through to model training and inference deployment in a unified interface. Open-sourced real-world datasets and classic models are available from day one for teams working on navigation and locomotion policy development.
Multi-Terrain Navigation
Waist-mounted RGB-D depth sensing and an IMU provide real-time spatial awareness for obstacle detection and terrain classification across both locomotion modes. The system handles flat ground, inclines, and staired environments using visual motion planning to guide step placement in the Sole configuration.
Open SDK and Simulator Support
Full Python and C++ SDK access with ROS1 and ROS2 compatibility supports both high-level task scripting and low-level motion control development. Validated support for NVIDIA Isaac Sim, MuJoCo, and Gazebo enables simulation-first locomotion research with clear URDF models optimized for Sim2Real transfer.
Use Cases & Application Scenarios
From field inspection and autonomous patrol to locomotion research and reinforcement learning experiments, the 2-in-1 mobile platform adapts to deployment environments where a single locomotion mode is insufficient.
Industrial Inspection & Patrol
In Wheeled Legs mode, the platform covers large floor areas at high speed for routine inspection, security patrol, and facility monitoring tasks with a substantial payload margin for sensor equipment. Auto-recharging support enables extended autonomous operation without manual battery intervention.
Multi-Floor & Stair Navigation
Switching to Sole bipedal mode enables the robot to climb staircases and navigate multi-level environments that wheeled platforms cannot access. Visual motion planning guides each step in real time, making the configuration suitable for building inspection, search tasks, and mixed-terrain deployments.
Locomotion Research & RL Experiments
University research teams use the platform as a physical testbed for reinforcement learning locomotion policies across both wheeled and bipedal motion domains. The open SDK and simulator compatibility allow policies trained in NVIDIA Isaac Sim or MuJoCo to be deployed and evaluated on hardware without additional integration work.
Outdoor & All-Terrain Deployment
The Wheeled Legs configuration handles uneven outdoor surfaces, inclined paths, and rough terrain with stable high-speed mobility and strong obstacle clearance. Organizations deploying robots in field, campus, or mixed indoor-outdoor environments benefit from the ability to switch locomotion modes without requiring separate hardware platforms.
LimX Dynamics TRON 2 EDU 2-in-1 Embodied Robot (US)
Model: TRON2-A-WS-EDU
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TRON2 Main Body (includes two upper arms)
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Bipedal Foot Ends ×2 (includes lower legs)
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Wheeled-Bipedal Ends ×2 (includes lower legs)
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TRON2 Battery
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Power Adapter
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Battery Charging Dock
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Remote Controller
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Dev Expansion Module
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2-in-1 Tool Kit (specific assembly tools for motion modules)
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TRON2 Roll Cage (protective frame with 2 lanyards)
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User Manual & Certificate of Quality
Package contents vary by configuration. Confirm final box contents with sales prior to ordering.
LimX Dynamics TRON 2 EDU 2-in-1 Embodied Robot (US)
Model: TRON2-A-WS-EDU
Max Step Clearance
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20 cm (7.9 in)
DoF per Leg
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5
Head DoF
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2
Material
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Aluminum Alloy and Plastic
Overall body dimensions vary by active locomotion mode. Values shown are from the manufacturer's reference.
LimX Dynamics TRON 2 EDU 2-in-1 Embodied Robot (US)
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