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SE 201: Introduction to Systems Engineering (2-0-2)

SE 201: Introduction to Systems Engineering (2-0-2). Dr. Sami El Ferik. SE 201: Introduction to Systems Engineering (2-0-2). Catalog Description :

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SE 201: Introduction to Systems Engineering (2-0-2)

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  1. SE 201: Introduction to Systems Engineering (2-0-2) Dr. Sami El Ferik

  2. SE 201: Introduction to Systems Engineering (2-0-2) • Catalog Description : • Introduction to Systems Engineering. Some areas of Industrial Engineering/Operations Research: facility location, quality control, production planning, and linear programming. • Some areas of Automation/Control Engineering: concepts of automatic control, open and closed loop control, and use of computers in control. Systems approach to engineering problems, integrating the above tools. Applications of system concepts in engineering. • Prerequisites : MATH 102.

  3. Prerequisites by topic: • Applications of definite integrals. • Logarithmic, exponential, and inverse trigonometric functions. • Infinite series of positive terms. • Textbook : Turner, Mize, Case, and Nazemetz, Introduction to Industrial and Systems Engineering, Third Edition, 1993. • Course Objectives : This course introduces students to Systems Engineering concepts and methodology, and to the two SE options: (i) Industrial Engineering & Operations Research (IE/OR), and (ii) Automation & Control (A/C). The course also gives a broad picture of Systems Engineering applications, fields of study, and career opportunities.

  4. Learning Outcomes : • Toward the end of the course, the student must be able to do the following: • Define Systems Engineering, and identify its main tools, applications, and career paths. • Identify the Common features of the two SE options: IE/OR, and A/C. • Understand the basic concepts, terminology, and applications of the following IE/OR areas: • Facility Location and Layout. • Material Handling, Distribution & Routing. • Work Measurement & Design. • Inventory & Production Planning. • Forecasting & Scheduling. • Quality Control. • Basic Operations Research (graphical LP). • Assignment & Transportation Problems.

  5. Understand the basic concepts, terminology, and applications of the following A/C areas: • Introduction to Control Systems • Modeling of Dynamical Systems • Examples of Control Systems • Feedback Control • Analysis of First-Order Systems • Demonstrations of Control Systems

  6. Topics • Introduction to systems engineering. (2 classes) • Facility location and layout. (2 classes) • Material handling distribution and routing. (2 classes) • Work measurement and design. (2 classes) • Operations planning and control. Inventory and production planning, forecasting, & scheduling. (4 classes) • Quality Control. (2 classes) • Introduction to Control Engineering.

  7. Topics • Examples of control systems: two-tank system, temperature control, inverted pendulum control. • Basic components of control system. Feedback control systems. • Block diagram structure, open loop and closed loop systems. • Representation of a control system. Feedback control systems.

  8. Automation/control part total 50% • Quizzes • Attendance • Final

  9. Structure of the course • Examples • Concepts and definition basics • Demos • Discussion • References: Lectures slides, Handouts and the main textbook.

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