In recent years, robotics technology has advanced rapidly, finding applications across a wide range of fields. Using resources we provided—such as 3D models, servo motors, and 3D printing technology—an ambitious student embarked on a new challenge. The result is an integrated platform combining a tracked (caterpillar) mobility system with a robotic arm.
https://www.youtube.com/shorts/eONA6dJP1BY
This integration has produced a multifunctional robot that combines mobility with operational capabilities. The student independently handled the entire process—from design to assembly to operational testing—achieving an impressive level of completion within limited time and budget.
In response to user feedback, such as "A more powerful motor would expand its range of applications", the student also began work on incorporating high-torque motors. This improvement is expected to enable the robot to handle heavier loads, perform more precise tasks, and adapt to a wider variety of applications.
We will continue to support the creativity and initiative of students like this, expanding the possibilities of robotics technology and contributing to the cultivation of the next generation of engineers. This achievement marks an important first step, and we look forward to seeing its continued evolution.
