Features

• This is a moving robot with an autonomous LiDAR sensor. It contains examples of collision avoidance and examples of position tracking, so you can learn about ROS and SLAM.
• With the integrated development environment, anyone can easily and quickly implement firmware for electronic device control. The Arduino integrated development environment is based on the environment using processing / wiring language which is effective for developing interactive objects, easy operation of microcontroller, and easy programming via USB.
• By supporting the ADK-based electronic device development environment, the Google Smart Device Peripheral Design Platform, you can quickly and easily develop applications that work with Smart Devices with the Google Android platform.
• With 12 ultrasonic sensors and 8 infrared sensors, obstacles can be avoided and missions can be performed on a given route.
• By incorporating acceleration and gyroscope sensors, it is possible to develop intelligent robots that autonomously travel by detecting and judging the acceleration, vibration, shock and motion information of the robot by itself.
• DC geared motor has built-in encoder, so it can detect the operation status of motor and can calculate rotation direction and speed.
• Accurate steering control using servo motor is possible and it is able to change the rotation axis of front wheel for forward direction.
• Built-in Bluetooth communication module enables remote control based on SPP profile through PC, notebook, smartphone, tablet etc. that support Bluetooth communication
• Smart phones and tablets can be used as the brain of mobile robots, enabling the implementation of mobile robot-based ICT convergence services using high-performance processors and Wi-Fi communication environments provided by smartphones and tablets.
• We provide AndroX StudioTM, an integrated development environment for Android-based robot image processing and high-end service development.