Master’s Program in Advanced Robotics

Develop highly specialized engineers with advanced knowledge in control technology and artificial intelligence.

In conjunction with proficient knowledge and skills in the fundamental engineering fields of mechanical, electric and electronic, information, and control, students master approaches for applying these competencies in an integrated manner as well as techniques of practical mechanical design, electric and electronic circuit design, programming, and control system design, and, in the process, acquire a more profound understanding of the principles of robotics. Moreover, through practical lab works and research activities, we seek to educate professionals possessing the competence to wield advanced specialized knowledge relating to control technologies and artificial intelligence, which may potentially enhance the convenience of human life.

Summary

Diploma Policy

A degree will be awarded to those who complete the prescribed period, earn the required credits, pass the thesis examination and final exam, and fulfil the following requirements:

(1) Possess advanced specialized knowledge and skills backed by fundamental knowledge in the humanities, social sciences, natural sciences, and design science, along with the necessary general education for becoming a highly specialized engineer or researcher.

(2) Have the ability to independently identify problems in real-life and social issues, and possess advanced knowledge, logical thinking, and technical skills in areas such as product design, promotion design, space design, and human factor engineering necessary for creative problem-solving.

(3) Use advanced specialized knowledge and skills in areas such as product design, promotion design, space design, and human factor engineering to creatively solve design-related challenges and contribute to society with high-level design abilities.

(4) Possess advanced presentation and communication skills to explain one's thinking and judgment processes, supported by specific examples and evidence.

(5) Effectively engage in group work and research activities, utilizing team-building techniques to establish strong cooperative relationships.

(6) Understand the ethics and social responsibilities that must be upheld as an advanced specialist and researcher in the design science field.
Curriculum Policy

To equip students with the abilities outlined in the Diploma Policy, the curriculum is based on the following principles:

(1) Provide courses to develop foundational knowledge and general skills necessary for applying and expanding engineering theories in the field of robotics. Also, offer courses to ensure the acquisition of advanced knowledge and techniques in machinery, electrical and electronic engineering, information, control, and artificial intelligence, as well as knowledge for a broad and multifaceted perspective.

(2) Use advanced, specialized knowledge and general skills in machinery, electrical and electronic engineering, information, control, and artificial intelligence to help students independently set challenges. Also, provide courses to learn practical skills in planning, execution, verification, and improvement, while working with others, to solve problems from a multifaceted perspective.

(3) Offer courses to understand the ethics and social responsibilities that advanced engineers and researchers must uphold, including respecting life, obeying laws, and prohibiting actions such as data falsification, plagiarism, and theft.