Autonomous Mobile Robot with ROS for Education and Field Expeditions

• ✔ Advanced R&D platform with ROS.
• ✔ Robust construction with four-wheel independent suspension for off-road use.
• ✔ Powerful DC motors and digital servos for precise movement.
• ✔ High-precision encoder for precise position control and navigation.
• ✔ Long battery life for extensive testing and operation.
• ✔ Ideal for educational projects, autonomous navigation and mobile logistics.

Introducing an intelligent autonomous mobile robot, designed as a comprehensive platform for education, research, and practical applications in robotics. With a robust design and advanced components, it is ready to face the challenges of the outdoor environment and become the backbone of your innovative ROS projects.

🎯 What can this robot do and offer?

• Powerful drive: Equipped with MD60 100W DC gear motors for reliable movement.
• Precision steering: DS5160 digital servos with 60 kg torque ensure precise maneuvering.
• Perfect stability: Four-wheel independent suspension with shock absorption allows movement in difficult terrain.
• High accuracy: Integrated 500-pulse encoder with AB effect for detailed position feedback.
• Long operating time: Battery life of up to 4.5 hours (no load) and 3 hours (at maximum load).
• Open ROS platform: Full Robotic Operating System support for easy programmability and extensibility.

🔍 Explore every detail – from design to software

This autonomous robot has been designed with maximum flexibility and durability in mind. Its design allows it to be deployed in a variety of environments, from university labs to outdoor terrain. Independent suspension on each wheel ensures a smooth ride and stability even on uneven surfaces, which is crucial for accurate sensors and a stable payload platform.

Thanks to its integration with ROS, the robot becomes an ideal tool for students and developers who want to experiment with advanced algorithms for autonomous navigation, mapping (SLAM), path planning or object recognition. It is a living laboratory on wheels, ready for your most ambitious projects.

🤔 Are you bothered by the limitations of existing platforms?

Do you feel that your current robotics platforms do not offer enough performance, accuracy or durability for your research or educational projects? Are you limited by low battery life, complex integration or lack of stability in real-world environments? Are you looking for a solution that would advance your capabilities in the field of autonomous robotics?

🚀 Get your time back and expand your possibilities!

With this autonomous mobile robot, you get a robust and reliable platform that eliminates common obstacles. No more worries about underperformance or fragile construction. Full ROS support means less time spent on integration and more time on developing and testing your innovative solutions.

💡 More than just features, real benefits:

• Powerful motors and servos: Reliable movement and precise maneuvering -> You can handle demanding tasks and complex terrain.
• Independent suspension: Stable ride on bumps -> Sensor and load protection, accurate data for navigation.
• High-precision encoder: Detailed motion feedback -> More accurate navigation and positioning.
• Long battery life: Extended operating time -> Fewer interruptions, more time for experimentation.
• Open ROS platform: Easy programmability and extensibility -> Rapid implementation of your ideas and research without limits.

🌍 Who is it the ideal choice for?

• Students and educators: The perfect tool for hands-on teaching of robotics, autonomous systems, and ROS.
• Researchers and developers: A reliable platform for testing new algorithms, sensors, and autonomous solutions.
• Engineers and prototypers: For developing and testing mobile logistics or inspection robots in real-world environments.

✅ Do you have concerns? We will answer them:

• Concern: Is the robot too complex for ROS beginners? -> Answer: The robot is designed with ROS integration in mind, providing extensive documentation and community support to make learning easy.
• Concern: Will the robot withstand demanding outdoor conditions? -> Answer: Thanks to its robust construction and independent suspension, the robot is ready for off-road operation and can handle uneven surfaces.
• Concern: What if I need specific modifications? -> Answer: The open architecture with ROS allows for wide possibilities for hardware and software customization and expansion.

⚙️ Technical specifications

Drive motors	MD60 100W DC Gear Motor
Steering servos	DS5160 60kg digital servo
Encoder	500 pulses, magnetoresistive (AB effect)
Suspension	Four-wheel independent suspension with shock absorption
Battery life (no load)	Approximately 4.5 hours
Battery life (maximum load)	Approximately 3 hours

❓ Frequently Asked Questions (FAQ)

What is the quality level of this robot?

This robot is designed with an emphasis on top quality, using professional components and a robust construction to ensure long life and reliability in demanding applications.

Is it possible to customize the robot to the specific needs of the project?

Yes, thanks to its open architecture and full support for the ROS platform, this robot offers wide customization and integration options with your unique projects and sensors.

How is the robot packaged for shipping?

The product is packaged in durable cartons or wooden crates to ensure maximum protection and safe transport to you.

Is this robot suitable for outdoor use?

Absolutely. With its robust construction, four-wheel independent suspension and sufficient power, the robot is ideal for testing and operation in a variety of outdoor terrains.

What is the main advantage of ROS integration?

Integration with ROS enables easy programmability, access to an extensive set of tools and algorithms for navigation, planning, and visualization, which significantly accelerates the development of autonomous applications.

What types of sensors can be connected to the robot?

The open platform and standard interfaces allow you to connect a wide range of sensors, such as LiDARs, cameras, GPS modules, inertial measurement units (IMUs), and more, depending on your needs.