Control engineering is based on the foundations of
feedback theory and linear system analysis, and it integrates the concepts of
network theory and communication theory. Therefore control engineering is not
limited to any engineering discipline but is equally applicable to
aeronautical, chemical, mechanical, environmental, civil, and electrical
engineering. For example, a control system often includes electrical,
mechanical, and chemical components. Furthermore, as the understanding of the
dynamics of business, social and political systems increases, the ability to
control these systems will also increase.
- Teacher: Zin Mar San
- Teacher: Aye Aye Mon
- Teacher: Aemi Aung
To understand the concepts of fuzzy sets,
knowledge representation using fuzzy rules, approximate reasoning and fuzzy
logic control and other machine intelligence applications of fuzzy logic.
- Teacher: Saint Saint Pyone
This course provides fundamental concepts of
robotics, including robot classification and application kinematics , different
motion.
- Teacher: Zaw Zaw Zin Phyu
Industrial automation is the use of control
systems, such as computers or robots, and information technologies for handling
different processes and machineries in an industry to replace a human being. It
is the second step beyond mechanization in the scope of industrialization.
- Teacher: Aung Kyaw Nyein