- Suitable for research and development projects and rapid prototyping
- Omnidirectional mecanum wheels included
- Compatible with ROS1 and ROS2
- Jetson TX1 computer for ROS integration
- Built in LiDAR and depth camera
The Mecabot Pro TX is an ideal Autonomous Mobile Robot (AMR) platform for robotic education, R&D projects and rapid prototyping. It is equipped with a built in ROS Controller, LiDAR, Depth Camera, STM32 Motor/Power/IMU, and a metal chassis with solid rubber wheels.
Mecabot Pro TX can save time and money for rapid prototyping or product development. Its battery life can go up to 4 hours or 2.5 hours with full load, making it a serious professional AMR platform to be integrated into industrial and service robots both for indoor and outdoor applications. It can carry up to 35 kg payload and climb up to 30 degree slope, making it one of the most agile AMR platforms that can carry out big jobs at low cost.
Why ROS?
ROS is the most popular robot operating system in the world. By using a hardware platform based on ROS, users can gain extensive practical skills from the worlds most promising robot operating system.
Quick Start
ROS and Ubuntu images are pre loaded on Mecabot Pro TX, which include all the essential ROS software packages and drivers. Our online tutorial will guide users through how to launch Mecabot Pro TX and its ROS packages within minutes.
Complete Solution
Mecabot Pro TX comes with comprehensive technical materials including a user manual, tutorials and sample ROS codes, saving valuable R&D time and resources.
Expandable
Mecabot Pro TX is expandable to add accessories such as robotic arms, voice recognition modules, LCD screens, and external keyboards, etc.
Research Lab Ready
Mecabot Pro TX comes with comprehensive technical materials including user manual, tutorials, and sample ROS codes, allowing researchers and developers to integrate Mecabot Pro TXs hardware and software package into their curriculum with ease and flexibility.
Applications
Mecabot Pro TX can be used for:
Autonomous driving
Autonomous mobile robotics
SLAM
Navigation
Mobile manipulation
Human robot interaction
Mobile computer vision
Edge computing over 4G/5G
Service robotics
Inspection robotics
Robot and drone collaboration.
