Compulsory Courses: (Each course weights 3 credit hours)
|
MTE 211 |
Theory of Machines |
|
MTE 311 |
Seminar on MTE |
|
ECE 221 |
Digital Logic Design |
|
ECE 222 |
Digital Logic Design Lab |
|
MTE 312 |
Applied Numerical Analysis |
|
MTE 313 |
Strength of Materials |
|
MTE 314 |
Mechanical Vibrations |
|
MTE 315 |
Mechanical Vibrations Lab |
|
ECE 322 |
Electronic Circuits |
|
ECE 323 |
Electronic Circuits Lab |
|
MTE 321 |
Project Based Learning on MTE |
|
MTE 322 |
Mechanical Design (1) |
|
MTE 323 |
Embedded Systems |
|
MTE 313 |
Automatic Control (1) |
|
MTE 314 |
Introduction to Mechatronics |
|
MTE 321 |
Pneumatic and Hydraulic Systems |
|
MTE 323 |
Mechatronics systems design |
|
MTE 324 |
Mechanical Design (2) |
|
MTE 325 |
Robotics |
Elective Courses: (Each course weights 3 credit hours)
|
MTE 423 |
Automatic Control (2) |
|
MTE 424 |
Digital Control |
|
MTE 425 |
Industrial Process Control |
|
MTE 426 |
Programmable Logic Controllers |
|
MTE 427 |
Electro hydraulic and electro pneumatic servo systems |
|
MTE 428 |
Distributed Control Systems |
|
MTE 429 |
Intelligent Control |
|
MTE 430 |
Micro Electromechanical Systems (MEMS) |
|
MTE 431 |
Mobile Robots |
|
MTE 432 |
Selected Topics in Robotics |
|
MTE 433 |
Machine Vision |
|
MTE 434 |
Sensors & Actuators |
|
MTE 435 |
Electric Drives |
|
MTE 436 |
Product Design of Mechatronic Systems |
|
MTE 437 |
Introduction to Bio-Mechatronics |
|
MTE 438 |
Artificial Intelligence in Mechatronics and Robotics |
|
MTE 439 |
Frontiers of Space Engineering |
Graduation Project:
MTE 420 graduation project
MTE 500 graduation project
