ROBOT Development

AUTONOMOUS NAVIGATION
DIAGNOSTICS
End User Interface
Automation
ARM AUTONOMOUS MOTION
autonomous navigation
Our robot's navigation system uses advanced sensing, motion control, and processing for optimal performance. Sensors ensure obstacle avoidance and real-time mapping, managed by a microcontroller. Motors provide stable navigation. The head unit, powered by a microprocessor running SLAM with ROS, creates maps and includes the chassis, mechanical components, and Battery Management System (BMS).
Automation
Our robot's automation feature schedules tasks to be performed at set times without human intervention, ensuring consistent and efficient operation. Users can easily program tasks, enhancing productivity and convenience by freeing up time for other activities. This feature optimizes workflows and daily routines with precision and reliability.
Diagnostics
Our robot's automation feature schedules tasks to be performed at set times without human intervention, ensuring consistent and efficient operation. Users can easily program tasks, enhancing productivity and convenience by freeing up time for other activities. This feature optimizes workflows and daily routines with precision and reliability.
Arm Automation Motion
Our customizable robotic arm ranges from 3DOF to 6DOF, meeting diverse application needs. It integrates linkages, joints, and servo motors with advanced control systems in a head unit. Using software like MoveIt2 for complex kinematics, the arm executes precise movements. Its adaptable end effector supports tasks like pick and place operations, making it essential for autonomous and complex tasks.
End user Interface
Our robot's user interface ensures seamless connectivity and ease of use. It features robust connectivity for quick setup, pre-programmed functions for simple command execution, and a mobile app for full control and monitoring. This versatile and user-friendly interface supports efficient interaction for various applications.