Course ID:  M180124I

Credits: 3

Objective: 

Teaching master''s and doctoral students on knowledge theory and their integrated application in the fields of optics, electronic control and precision machinery.

Course Prerequisites: Dynamics, circuits, automatic control, programming language.

Outline:

* Introduction: 

(1) History, 

(2) Technology, 

(3) Application, 

(4) Property (3 hrs.) 

* Optics: 

1. Geometrical optics (4.5hrs.) 

2. Wave optics (1.5 hrs.) 

3. Optical polarization (3 hrs.) 

4. Proposals for optics (3 hrs.) 

5. Colorimetry (3 hrs.) 

6. Image process (6 hrs. with a case study) 

* Mechatronics Integration: 

1. Dynamic control system (2 hrs.) 

2. Piezoelectricity (2 hrs.) 

3. Voice Coil Motor (2 hrs.) 

4. Proposals for mechatronics (3 hrs.) 

* Opto-Mechatronics Integration: 

1. Sensors (1.5 hrs.) 

2. Optical interference (3 hrs.) 

3. Case study 

(1) Atomic Force Microscope, 

(2) Optical Storage Disk, 

(3) Visual Tracking System (2hrs.) + Proposals (1.5 hrs.) 

* Final presentation for proposal of opto-mechatronics integration (3 hrs.) 

* Final report for proposal of opto-mechatronics integration (6 hrs.)

Teaching Method:  Classroom lectures and group reports.

Reference:  

1. IEEE Xplore, https://ieeexplore.ieee.org/Xplore/home.jsp 

2. H. S. Cho, Opto-mechatronics: Fusion of Optical amd Mechatronic Engineering, Taylor & Francis, 2006. 

3. A. Preumont, Mechatronics Dynamics of Electromechanical and Piezoelectric Systems, Springer, 2006. 

4. D. M. Auslander and Carl J. Kempf, Mechatronics: Mechanical System Interfacing, Prentice-Hall, 1996.