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B.Sc. in Industrial and Systems Engineering

B.Sc. in Industrial and Systems Engineering

The ISYE Program at Khalifa University provides a state-of-art undergraduate education to prepare students for successful and long-standing careers in the competitive global economy.

The curriculum, led by world-class teachers, is based on strong fundamentals in operations research and is enriched by coursework that targets the specific needs of local industries.

Students gain valuable industrial experience through a summer internship and also have the opportunity to participate in international exchange programs during their junior year.

  • Graduates will meet the expectations of employers of Industrial & Systems engineers.
  • Qualified graduates will pursue advanced study if they so desire.

Students graduating from the Department of Industrial & Systems Engineering degree program will have the following:

  1. an ability to apply knowledge of mathematics, science, and engineering.
  2. an ability to design and conduct experiments, as well as to analyze and interpret data.
  3. an ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability.
  4. an ability to function on multi-disciplinary teams.
  5. an ability to identify, formulate, and solve engineering problems.
  6. an understanding of professional and ethical responsibility.
  7. an ability to communicate effectively.
  8. the broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context.
  9. a recognition of the need for, and an ability to engage in life-long learning.
  10. a knowledge of contemporary issues.
  11. an ability to use the techniques, skills, and modern engineering tools necessary for engineering practice.

Industrial and Systems Engineering make decisions concerning the best use of people, material, equipment, energy, and cost in achieving an organizational aim. They can find work in:

  • the service sector
  • supply chain and logistics
  • health systems
  • military
  • security and intelligence
  • energy
  • high-tech manufacturing
  • transportation
  • oil and petrochemical industries
  • government

Career specializations include:

  • systems engineer
  • management engineer
  • health system engineer
  • planning and operations manager
  • financial analyst
  • quality and maintenance engineers
  • policy analyst

To be recommended for the degree of B.Sc. in Industrial & Systems Engineering, students must satisfactorily complete the courses in the specified categories as set out below. The categories cover an extended set of requirements, including the Industrial and Systems Engineering core and Technical Electives requirements. The normal length of the program is 140 credits.

General Education Requirements
College of Engineering Requirements

Math/Science Requirement (8 credits)

To satisfy the College of Engineering requirements, Industrial & Systems Engineering requires the following additional Math courses:

MATH 212 Calculus III 4 cr
MATH 213 Probability and Statistics for Engineers 4 cr

Core Requirements (55 credits)

Code Code Course Name Credits 
ISYE 200 Engineering Economic Analysis 3 cr.
ISYE 201 Introduction to Systems Engineering 3 cr.
ISYE 251 Operations Research I 4 cr.
ISYE 271 Modern Methods of Manufacturing 4 cr.
ISYE 311 Quality Control and Reliability 4 cr.
ISYE 331 Stochastic Processes 3 cr.
ISYE 341 Simulation Modeling & Analysis 4 cr.
ISYE 351 Production, Operations, and Inventory Management 3 cr.
ISYE 352 Lean Manufacturing  3 cr.
ISYE 360 Human Factors and Safety Engineering 4 cr.
ISYE 361 Data and Information Engineering 3 cr.
ENGR 399 Internship 1 cr.
ISYE 430 Supply Chain & Logistics  4 cr.
ISYE 451 Operations Research II 3 cr.
ISYE 475 Facilities Planning and Warehousing 4 cr.
ISYE 497 Senior Design Project I 3 cr.
ISYE 498 Senior Design Project II 3 cr.

Technical Electives (9 credits)

The following is a sample list of courses that will satisfy the technical electives in the Industrial and Systems Engineering Program. The student must select a total of 9 credits from this list.  At most 3 credits of the technical electives may be at 300-level and at most 3 credits may be independent study. In addition, courses from the list below may be taken to satisfy the free electives requirement. Additional courses may be approved by the department as technical electives.

Course Code Course Name Credits 
ISYE 391 Independent Study I 1 - 3 cr.
ISYE 401 Advanced Systems Engineering cr.
ISYE 422 Reliability  3 cr. 
ISYE 431 Forecasting and Time Series 3 cr.
ISYE 432 Advanced Stochastic Processes cr.
ISYE 433 Advanced Statistics cr.
ISYE 441 Advanced Simulation 3 cr.
ISYE 445 Six-Sigma Methodology and Applications 3 cr.
ISYE 461 Design of Human-Integrated Systems cr.
ISYE 471 Advanced Supply Chain Logistics cr.
ISYE 480 Financial Engineering cr.
ISYE 481 Procurement and Supply Management 3 cr.
ISYE 485 Stochastic Manufacturing and Service Systems cr.
ISYE 491 Independent Study II 1 - 3 cr.
ISYE 495 Special Topics in Industrial and Systems Engineering cr.

 

ISYE 200 - Engineering Economic Analysis  (3-0-3)
Prerequisite:  BUSS 201

This course will introduce economic analysis for the comparison of engineering alternatives to make informed financial decisions. Topics include time value of money, present-worth analysis, annual equivalence analysis, rate-of-return analysis, and methods to address project uncertainty.

ISYE 201 - Introduction to Systems Engineering (3-0-3)
Prerequisites:  MATH 112; ENGR 112 

This course provides an understanding of the processes and management practices associated with the systems engineering discipline, highlights how systems engineering principles can be applied to technical projects. Students will become familiar with common SE terms, standards, and procedures and acquire knowledge and skills necessary to engineer complex, multi-disciplinary systems. 

ISYE 251 - Operations Research I (3-0-3)
Prerequisite(s):  MATH 211

This course introduces Operations Research and deterministic mathematical modeling with emphasis on linear programming. Topics include mathematical modeling of industrial problems, graphical interpretation, simplex method, duality and sensitivity analysis; general solution strategies; and utilization of modeling languages and solvers for computer solution.

ISYE 311 Quality Control & Reliability (3-3-4)
Prerequisite: MATH 213

This course will introduce theory and methods of quality control, system level reliability and maintenance engineering. Topics covered include process capability indices, attributes and variables control charts, time weighted control charts (CUSUM and EWSA), process and improvement with design of experiments, hazard functions, life distributions, censoring, accelerated life testing, structure functions, reliability and maintenance systems, replacement theory .

ISYE 331 Stochastic Processes (3-0-3)
Prerequisite: MATH 211; MATH 213

To learn techniques for modeling stochastic systems, introduce methods for using stochastic models in solving engineering design problems. Analyze probability models that capture short and long term effects of randomness on the systems using a broad range of mathematical and computational tools. Applications such as inventory, reliability, queuing models, and service systems will be discussed.

ISYE 341 Simulation Modeling and Analysis (3-3-4)
Prerequisites: ENGR 112; ISYE 331

Discrete event simulation methodology emphasizing the statistical basis for simulation modeling and analysis. Overview of computer languages and simulation design. Applications include a variety of industrial situations, including manufacturing and logistics simulations.

ISYE 351 Production, Operations and Inventory Management (3-0-3)
Prerequisite: MATH 213; ISYE 200; ISYE 251; ISYE 271

This course introduces students to concepts of operations management in manufacturing and non-manufacturing sectors. The course analyzes the interrelationships among the component blocks of the system: forecasting, inventory models, aggregate planning, production scheduling, material and capacity planning, and operations scheduling. The course also includes an overview of integrated production planning and control including MRP II.

ISYE 352 Lean Manufacturing (3-0-3)
Prerequisite: ISYE 351

This course will introduce students to lean philosophy and tools, and will teach students how to design lean manufacturing systems. It will identify differences between push and pull type manufacturing systems. While the course primarily focuses on manufacturing systems it will also provide basic knowledge needed to design lean service systems.

ISYE 360 Human Factors & Safety Engineering (3-3-4)
Prerequisite: ISYE 201

An introduction to human capabilities and their limitations in engineered systems to increase productivity and work safely. Topics include the range of human motions, senses, and cognitive abilities; the incorporation of the human element into system and product design; communicating critical information to human users; ergonomics and safety in workplace design; safety in workplace.

ISYE 361 Data and Information Engineering (3-0-3)
Prerequisite: ENGR 112

This course introduces data modeling and the design and implementation of databases to extract and represent information for various industry applications. Topics include relational models and normalization, entity-relationship models, manipulation of data using Structured Query Language, data visualization and analysis tools, and retrieving data from external sources such as ERP systems and data warehouses.

ISYE 391 Independent Study I (Variable course credits from 1 to 3)
Prerequisites: Junior standing and approval of the department

This course gives an undergraduate student the opportunity to participate in an individual or group oriented project, study and/or research study under direction of a faculty member. A formal report is required.

ISYE 401 Advanced Systems Engineering (3-0-3)
Prerequisite: ISYE 201

This course introduces advanced level to systems methodology, design, and management, an overview of systems engineering as a professional and intellectual discipline, and its relation to other disciplines, such as operations research, management science, and economics.

ISYE 422 Reliability (3-0-3)
Prerequisite: ISYE 311

To understand and learn system level reliability and maintenance engineering, specific topics include hazard functions, life distributions, censoring, life tables, nonparametric and parametric estimation and inference, accelerated life testing, structure functions, reliability and maintenance systems, replacement theory.

ISYE 430 Supply Chain and Logistics (3-3-4)
Prerequisites: ISYE 251, ISYE 351

This course will introduce supply chain and logistics activities that support the physical supply of raw and semi-finished materials to a firm, the planning and control of operations, and the delivery of the products or services up to the final customers, with the objective of achieving a sustainable competitive advantage and optimizing the value of long-term performance of the firm and supply chain as a whole.

ISYE 431 Forecasting and Time Series (3-0-3)
Prerequisites: MATH 213; ISYE 211

The objective of this course is to teach the students how to model and forecast using time series data, statistical techniques for forecasting and use of standard statistical software. Topics include: time series regression, decomposition methods, exponential smoothing, and the Box-Jenkins forecasting methodology. This course will provide students with hands-on experience in modeling and forecasting techniques.

ISYE 432 Advanced Stochastic Processes (3-0-3)
Prerequisite: ISYE 331

This course covers the analysis and modeling of stochastic processes. Topics include measure theoretic probability, martingales, renewal theory, elements of large deviations theory, Brownian motion, stochastic integration and Ito calculus and functional limit theorems. In addition, the course will go over some applications to finance engineering, insurance, queuing and inventory models.

ISYE 433 Advanced Statistics (3-0-3)
Prerequisite: MATH 213

This course introduces Advanced Inferential Statistics and the conceptual underpinnings of statistical methods and how to apply them to address more advanced problems. Topics covered includes design of experiments, nonparametric statistics, and Bayesian statistics. Learning how to effectively use data and use of statistics-oriented programming language such as R or SAS

ISYE 441 Advanced Simulation (3-0-3)
Prerequisite: ISYE 341

This course provides an advanced treatment of discrete-event simulation models and analysis techniques. Topics include large-scale and complex industrial systems; probability theory and queuing theory; random number and random variate generation, input modeling, output analysis, sensitivity analysis, design of experiments, comparison of alternative systems.

ISYE 445 Six-Sigma Methodology & Applications (3-0-3)
Prerequisite: MATH 213

This course introduces the concept, deployment and practice of Six-Sigma, Six-Sigma methodologies for process improvement and process/product design including: DMAIC and DMADV methods; overview of different quality management tools applied in Six-Sigma projects; Six-Sigma project management and applications of Six-Sigma tools in real world projects.

ISYE 451 Operations Research II (3-0-3)
Prerequisite: ISYE 251

This course will introduce a variety of optimization problems with integer variables and constraints. Topics covered include assignment problems, transportation, transshipment problems, network flows problems, and IP algorithms such as Cutting Planes, Branch & Bound. Applications include the Knapsack Problem and the Traveling Salesman Problem. Appropriate Optimization software tools will be used to solve a variety of practical problems.

ISYE 461 Design of Human-Integrated Systems (3-0-3)
Prerequisites: MATH 213; CMPE 211

Introduction to the effective design of information technology to support human activity in the workplace. Topics include general cognitive systems engineering concepts and principles and specific concepts and principles of interface design, task analysis, prototyping, and empirical usability evaluation methods. Case studies and individual and group design projects help students apply the concepts and principles in domains such as service, management, manufacturing, transportation and control systems.

ISYE 475 Facilities Planning and Warehousing (3-3-4)
Prerequisites: ISYE 351

Design of facilities for the most efficient flow and storage of raw materials, work-in-process, and completed stock through a work place. Topics include facilities layout planning models, space-activity relationships, materials handling, storage, and warehousing in relation to trends toward reduced inventory, smaller lot sizes, and just-in-time production using current modeling and analysis tools.

ISYE 480 Financial Engineering (3-0-3)
Prerequisites: MATH 213; ISYE 251

This is an introductory course on financial engineering, technical difficulty of the subject is kept at a minimum, while the major ideas and concepts underlying modern financial engineering are explained and illustrated. Students will learn about the different types of interest, annuities, debt retirement methods, investing in stocks and bonds. The course covers the binomial model for stock prices, portfolio management, and an elementary introduction to continuous time models and the Black-Scholes formula.

ISYE 481 Procurement and Supply Management (3-0-3)
Prerequisite: ISYE 351

Procurement supplies the organization with a flow of materials and services that ensure continuity of supply by maintaining effective relationships with existing sources and by developing other sources of supply either as alternatives or to meet emerging or planned needs. Topics include sourcing strategies, outsourcing, pricing and total cost of ownership.

ISYE 485 Stochastic Manufacturing And Service Systems (3-0-3)
Prerequisite: ISYE 331

Models for describing stochastic movements of parts and material in manufacturing facilities, supply chains, inventory systems, and equipment maintenance networks. Analysis of congestion, delays, machine usage, line balancing, equipment availability, inventory ordering policies, and system crashes. Basics of Markov Chains and queuing theory.

ISYE 491 Independent Study II (Variable course credits from 1 to 3)
Prerequisites: Senior standing and approval of the department

This course gives an undergraduate student the opportunity to participate in an individual or group oriented project, study and/or research study under direction of a faculty member. A formal report is required.

ISYE 495 Special Topics in Industrial Engineering (3-0-3)
Prerequisites: Senior standing and approval of the department

This course gives an undergraduate student the opportunity to participate in an individual or group oriented project, study and/or research study under direction of a faculty member. A formal report is required.

ISYE 497 Senior Design Project (1-6-3)
Prerequisites: ISYE 311; ISYE 341; ISYE 352

Participation in team projects dealing with design and development of a product or a system. Number of project will be offered each year by the different departments, some of which will have a multi-disciplinary nature. This will be an opportunity to exercise initiative, engineering judgment, self-reliance and creativity, in a team environment similar to industry. The design projects require students to draw upon their engineering background, experience, and other pertinent resources. Oral and written presentations are required.

ISYE 498 Senior Design Project II (0-9-3)
Prerequisite: ISYE 497

Continuation of ISYE 497.

 

The following is a typical study sequence for a student enrolled in the B.Sc. in Industrial and Systems Engineering program:

Year 1

ENGL 111 English Communication I 4 cr. ENGL 112 English Communication II 4 cr.
MATH 111 Calculus I 4 cr. MATH 112 Calculus II 4 cr.
CHEM 115 Intro. to General Chemistry for Engineers 4 cr. PHYS 121 University Physics I 4 cr.
ENGR 111 Engineering Design 4 cr. ENGR 112 Introduction to Computing 4 cr.
Summer HUMA XXX Humanities and Social Sciences  3 cr.

Year 2

MATH 211 Differential Equations and Linear Algebra 4 cr. ISYE 200 Engineering Economic Analysis 3 cr.
MATH 213 Probability & Statistics for Engineers  4 cr. MATH 212 Calculus III 4 cr.
PHYS 122 University Physics II 4 cr. ISYE 271 Modern Methods of Manufacturing 4 cr.
ISYE 201 Introduction to Systems Engineering 3 cr. HUMA XXX Humanities and Social Sciences 3 cr.
BUSS 201 Fundamentals of Accounting and Finance 3 cr. ISYE 251 Operations Research I 3 cr.
Summer HUMA XXX Humanities and Social Sciences 3 cr.
Year 3 ISYE 331 Stochastic Processes 3 cr. HUMA XXX Humanities and Social Sciences 3 cr.
ISYE 311 Quality Control and Reliability 4 cr. Free Elective I  3 cr.
ISYE 361 Data and Information Engineering 3 cr. ISYE 341 Simulation Modeling and Analysis 4 cr.
ISYE 351 Production, Operations and Inventory Management 3 cr. ISYE 352 Lean Manufacturing 3 cr.
ENGR 311 Innovation and Entrepreneurship in Engineering Design 4 cr. ISYE 360 Human Factors and Safety Engineering 4 cr.
Summer ENGR 399 Internship 1 cr.
Year 4 Technical Elective 1 3 cr. BUSS 301 Inside Organizations 3 cr.
Free Elective 2 3 cr. ISYE 472 Facilities Planning and Warehousing 4 cr.
ISYE 430 Supply Chain and Logistics 4 cr. Technical Elective 2 3 cr.
ISYE 451 Operations Research II 3 cr. Technical Elective 3 3 cr.
ISYE 497 Senior Design Project I 3 cr. ISYE 498 Senior Design Project II 4 cr.

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