1 | To be able to comprehend the inputs, outputs and elements of a control system, the meanings of open-loop and closed-loop control systems and the advantages of a feedback control system. |
2 | To be able to apply mathematical methods such as differential equations and Laplace transforms to engineering subjects. |
3 | To be able to comprehend the importance of transfer function and block diagram modeling techniques in system dynamics and control systems. |
4 | To be able to comprehend the meaning of transient and steady state behavior parameters of control systems and their effect on the performance of the system. |
5 | To be able to determine system stability and stability limits of certain types of feedback systems. |
6 | To be able to comprehend proportional, integral and derivative control effects and to apply them in industrial controller design. |
7 | To be able to comprehend the concept of frequency response and to use Bode and Nyquist frequency response techniques in system stability determination and controller design. |
8 | To be able to benefit from MATLAB/Simulink programming opportunities in the analysis and design of control systems. |