Our mission, as a premier center of education and research in the field of Industrial Engineering and Systems Management, is to deliver graduates capable of working efficiently in and taking leadership of a multidisciplinary team to resolve real-life problems of any production or service company using state-of-the-art engineering optimization solutions.
1. Teach students to define, diagnose, and solve real-life problems from an industrial engineering and systems perspective and within a multi-disciplinary, enterprise-wide context.
2. Foster the appreciation for further education and lifelong learning for continued professional development.
3. Develop strong communication skills both within and outside the field.
4. Nurture the professional values of leadership, integrity, judgment, and teamwork.
1. (1.1) Collect data and be able to interpret, analyze and draw appropriate conclusions.
2. (1.2) Identify, formulate and solve engineering problems through the techniques, skills and modern tools of Industrial Engineering.
3. (1.3) Consider alternatives and make a decision based on a proper engineering/scientific/business justification.
4. (2.1) Identify and evaluate existing research thoroughly and systematically which is relevant to a problem or topic of inquiry.
5. (2.2) Cultivate the disposition to discover and learn new material on his/her own, including the ability to conduct independent research.
6. (3.1) Produce and deliver professional written and oral presentations, and effectively communicate with specialists and non-specialists.
7. (3.2) Act as a exponent of ethical, innovative and responsible engineering.
8. (4.1) Exhibit teamwork skills and be able to assume a leadership role, including in multi-disciplinary team environments.
9. (4.2) Understand the impact of engineering components, processes or systems in an economic, environmental and societal context.
|Course code – name||1.1||1.2||1.3||2.1||2.2||3.1||3.2||4.1||4.2|
|IESM 340 Engineering Economics||x||x||x||x|
|IESM 321 Operations Research 2||x||x||x||x|
|IESM 301 Analysis and Design of Data Systems||x||x||x|
|IESM 311 Quality Assurance and Management||x||x||x||x||x||x||x|
|IESM 330 Simulation of IE Systems||x||x||x||x||x||x||x|
|IESM 331 Production System Analysis||x||x||x||x||x||x||x||x||x|
|IESM 395 Capstone Preparation||x||x||x||x|
|IESM 396 Capstone Thesis||x||x||x||x||x||x||x||x|
|IESM 397 Capstone Project||x||x||x||x||x||x||x||x|
|IESM 351 Sustainable Smart and Resource Efficient Systems 1: Systems and Technologies||x||x||x||x||x||x||x|
|IESM 352 Sustainable Smart and Resource Efficient Systems 2: Decision Making Tools||x||x||x||x||x||x||x|
|CS 355 Entrepreneurship||x||x||x||x|
|IESM 350 Alternative Energy||x||x||x||x||x|
|IESM 313 Data Mining & Predictive Analytics||x||x||x|
|IESM 315 Design and Analysis of Experiments||x||x||x||x||x|
|IESM 347 Design and Innovation of Information Services||x||x|
|IESM 345 Supply Chain Management||x||x||x||x|
|IESM 349 Enabling Competitive Advantage through Information Technology||x||x||x||x|
|IESM 346 Managing Engineering and Technology||x||x||x||x||x|
|IESM 390 Integrative Project in Modern Production||x||x||x||x||x||x||x||x||x|
|IESM 360 Computer-Aided Design||x||x||x|
|IESM 361 Computer-Aided Manufacturing||x||x||x||x||x|
|IESM 362 Advanced CAD/CAM Applications||x||x||x||x||x||x||x|