Description
The Industrial Engineering program is concerned with planning industrial operations, differentiating and improving the product, and various production plans, while studying the mechanisms for controlling product quality, in addition to studying production economics, methods of managing industrial institutions, and the sustainability of manufacturing means.
Objectives
1. Develop and understanding of the strategic importance of industrial operations and how operations can provide competitive advantages in the marketplace.
2. Achieve a satisfactory awareness of the new demands of the globally competitive industrial environments.
3. Recognize the relationship between industrial operations with related materials and services providers.
4. Emphasize the importance of change, facilitation of learning, cross-functional teamwork, knowledge capture, and analysis in industrial organizations.
5. Develop knowledge of the issues related to designing and managing industrial operations.
Outcomes
1- Applying knowledge in mathematics and engineering sciences.
2- Designing and completing practical experiments and analyzing their results.
3- Dealing with contemporary engineering problems and finding solutions to them.
4- Understanding the mathematical and physical foundations and adhering to professional ethics.
5- Lifelong learning.
6- Using engineering techniques and tools appropriately to implement experimental designs.
7- Working within the work team.
Certificate Rewarded
Master of Mechanical Engineering in the field of Industrial Engineering
Entry Reuirements
- The applicant must have a Bachelor's degree in Mechanical Engineering
-Successfully pass the comprehensive exam
Study Plan
The Master in Industrial Engineering & Production prepares students to qualify for Master in Industrial Engineering & Production. The student studies several subjects which have been carefully chosen in this major to cover its different aspects.
It comprises 6 Semesters of study, in which the student will study a total of 32 units, which include 0 units of general subjects, and 0 major units
Study plan for this program is shown below:
1st Semester
| Code | Title | Credits | Course Type | Prerequisite |
|---|
| GE 604 | Advanced Engineering Mathematics | 03 | General | + |
| ME644 | Operations & Production Management | 03 | Compulsory | + |
| ME663 | Advanced Operations Research | 03 | Compulsory | + |
2nd Semester
| Code | Title | Credits | Course Type | Prerequisite |
|---|
| ME650 | Production Planning and Inventory Control | 03 | Elective | + |
| ME642 | Engineering Economy Analysis | 03 | Compulsory | + |
| ME641 | Product Development | 03 | Elective | + |
| ME635 | Computer Integrated Manufacturing Systems | 03 | Elective | + |
| ME632 | Total Quality Management | 03 | Elective | + |
| ME612 | Statistics Applications in Engineering | 03 | Compulsory | + |
4th Semester
| Code | Title | Credits | Course Type | Prerequisite |
|---|
| ME658 | Industrial Systems Simulation | 03 | Elective | + |
5th Semester
| Code | Title | Credits | Course Type | Prerequisite |
|---|
| ME686 | Advanced Project Management | 03 | Elective | + |
| ME698 | Graduate Seminar | 01 | Compulsory | + |
6th Semester
| Code | Title | Credits | Course Type | Prerequisite |
|---|
| ME699 | M.Sc. Thesis | 06 | Compulsory | + |
Elective Subjects
| Code | Title | Credits | Course Type | Prerequisite |
|---|
| ME657 | Advanced Management Information System | 03 | Elective | + |
| ME697 | Special Topic | 03 | Elective | + |
| ME685 | Lean manufacturing | 03 | Elective | + |
| ME683 | Lean-Six Sigma | 03 | Elective | + |
| ME682 | Industrial Hygiene | 03 | Elective | + |
| ME668 | Advanced Facility Planning and Layout | 03 | Elective | + |
| ME664 | Artificial Intelligent and Expert Systems | 03 | Elective | + |
| ME660 | Ergonomics | 03 | Elective | + |
| ME652 | Maintenance Engineering | 03 | not defined | + |
| ME5XX | Undergraduate Course | 03 | Elective | + |