Compound Logistics Robot for STEM Education
All-in-one ecosystem integrating 6-DOF mechArm 270 and NVIDIA Jetson Nano myAGV. Master 5 core robotics technologies through 9 structured experiments, balancing industrial-grade performance with classroom-friendly operation.
5 Core Technical Features
Industrial-grade capabilities optimized for educational scenarios
Robot Arm
6-DOF mechArm 270 with precise repeatability for pick-and-place logistics tasks
Mobile Robot
NVIDIA Jetson Nano myAGV base for stable autonomous mobility
Kinematics
Forward/inverse kinematics for accurate arm movement control
Machine Vision
QR/Aruco recognition for intelligent object sorting & identification
SLAM
Real-time mapping & autonomous navigation for logistics workflows
📚 All-in-One Ecosystem
Integrated hardware (6-DOF mechArm 270 + myAGV), software (ROS/Ubuntu 20.04) and curriculum covering 5 core technologies & 9 structured experiments. One-click deployment for instant lab readiness.
🏭 Industrial + User-Friendly
Industrial-grade functionality (SLAM mapping, autonomous navigation) with classroom-friendly operation (Blockly/Python/ROS support, English interface, intuitive controls).
✅ Standard-Aligned
Fully compliant with STEM education standards, suitable for teaching, research projects and robotics competitions at all levels.
🔧 Open & Expandable
Ubuntu 20.04 OS, open-source ROS architecture, modular design with full experimental manuals and dedicated technical support.
9 Structured Experiment Courses
Hands-on learning from basic control to advanced logistics automation
Robot Arm Basic Control
Blockly/Python programming for mechArm 270 movement & calibration.
Mobile Robot Navigation
myAGV movement control & basic path planning with ROS.
Robot Kinematics Analysis
DH parameters & forward/inverse kinematics calculation.
SLAM Mapping & Navigation
Real-time map building & autonomous path navigation for logistics.
Machine Vision Recognition
QR/Aruco code recognition & visual servoing for smart sorting.
Arm + AGV Collaborative Control
Coordinate control of robotic arm and mobile base for integrated tasks.
Logistics Task Scheduling
Multi-task planning & priority management for logistics workflows.
Fault Diagnosis & Troubleshooting
Simulate hardware/software faults & learn debugging techniques.
ROS System Integration
Integrate vision, motion & navigation modules in ROS framework.
Function Demonstration Video
Watch the robot in action - see core functionalities and experiment workflows
Complete Function Demonstration
This video showcases the core functions of the compound logistics robot, including SLAM autonomous mapping, robotic arm grasping, and visual recognition sorting, intuitively presenting the product's application effect in educational scenarios.
Key Functional Demonstrations
SLAM Autonomous Mapping
Real-time environmental mapping with obstacle avoidance for logistics path planning
6-DOF Arm Manipulation
Precise pick-and-place operations for logistics sorting tasks
Machine Vision Sorting
QR/Aruco code recognition for intelligent logistics categorization