RoboGo's "SEP Teaching System" is designed to develop children's comprehensive skills and learning habits through a gradual, step-by-step teaching approach. This system emphasizes the integration of observation, critical thinking, communication, and hands-on practice, aligning with children's cognitive development patterns.

The 4 key abilities are interconnected and mutually reinforcing:

  1. Attention: Cultivating the foundation for focused learning.

  2. Comprehension: Helping children understand tasks and content.

  3. Thinking: Strengthening logical and creative thinking.

  4. Communication: Enhancing collaboration and communication skills.

  5. Hands-on Practice: Reinforcing knowledge through practical application.

This scientific teaching system not only follows the workflow of engineering tasks but also aligns with the natural sequence of children's cognitive development.

Robotics 

Learning Roadmap

  • ✺ Age 3-4

    Create simple models under the teacher's guidance to understand basic model structures.

    Begin to recognize the characteristics of robots, developing awareness of object space, size, position, shape, and color.

    Cultivate long-term focus, independent thinking habits, language expression, and imagination.

  • ✺ Age 5-6

    Use programming pens, TVs, sensors, and controllers.

    Begin programming basics, learning commands such as logical judgment, actions, numbers, music, and colors.

    Enhance creativity, develop programming thinking, and improve the ability to complete tasks.

  • ✺ Age 6-7

    Use tools for more complex building tasks and foster independent thinking.

    Master the concept of numbers, understanding the correspondence between numbers and quantities, structure and stability, while learning about mechanical construction and basic mechanical theory.

    Develop focus, observational skills, spatial imagination, the ability to identify and solve problems, logical thinking, and the application of knowledge.

  • ✺ Age 7-10

    Use tools for building electronic applications and motion-driven structures.

    Learn physics concepts such as mechanics and electricity.

    Develop skills in logical reasoning, mechanical principles, data analysis, and study integrated circuits.