Department of Industrial and Systems Engineering

This is an archived copy of the 2013-14 catalog. To access the most recent version of the catalog, please visit http://catalog.msstate.edu.

Head: Dr. John M. Usher
Undergraduate Coordinator: Dr. Lesley Strawderman
Office: 260 McCain Engineering Building

Industrial and systems engineering is the application of engineering methods and the principles of scientific management to the design, improvement, and installation of integrated systems of people, materials, information, equipment, and energy. The industrial and systems engineer is concerned with the design of total systems, and is the leader in the drive for increased productivity and quality improvement.

The industrial and systems engineering profession uses a variety of specialized knowledge and skills. These include communications, economics, mathematics, physical and social sciences, together with the methods of engineering analysis and design.

The industrial and systems engineer is often involved in designing or improving major systems that encompass the total organization. Consequently, he/she is often in contact with individuals from many segments of the organization. From his/her education and these experiences, the industrial and systems engineer develops a global view of the many inter-related operations necessary to deliver a firm’s goods and services. Because of their management skills and global view of the organization, a large proportion of industrial and systems engineers move into management positions, and later advance into top management positions.

Although industrial and systems engineering is especially important to all segments of industry, it is also applied in other types of organizations, such as transportation, health care, public utilities, agriculture, defense, government, merchandising, distribution, logistics, and other service sectors. With increasing emphasis on quality and productivity for successful international competition, it is expected that industrial and systems engineers will be in increasing demand in the coming decades.

The objectives of the Department of Industrial and Systems Engineering are founded in Mississippi State University’s Educational Philosophy and in the industrial engineering profession. They were developed to satisfy the needs of the department’s constituents: students, employers, alumni, faculty, and the industrial engineering profession.

The Industrial Engineering program objective is to graduate students having a broad education, with emphasis in industrial and systems engineering fundamentals and practices, which enables them to function effectively in systems involving people, materials, information, energy, and money.

The six educational objectives of the Bachelor of Science degree in industrial engineering are stated below.

The Department of Industrial and Systems Engineering strives to ready its graduates for a lifelong pursuit of learning.
The Department of Industrial and Systems Engineering expects its graduates to be well versed in industrial engineering theory, know how to apply that theory, and to be capable of functioning effectively in a broad range of organizations.
The Department of Industrial and Systems Engineering expects its graduates to master important professional skills, including communication, economics, physical and social science, mathematics and statistics.
The Department of Industrial and Systems Engineering expects its graduates to interact cooperatively in professional situations with individuals having different cultures, training, education, and interest.
The Department of Industrial and Systems Engineering expects its graduates to think independently, to critically examine ideas, and to make discerning professional judgments, whether intellectual, ethical, or aesthetic.
The Department of Industrial and Systems Engineering expects to graduate professionally mature, responsible, and informed citizens.

Because of the importance of systems design in the many facets of industrial and systems engineering, instruction of the principles and methods of design is integrated throughout the curriculum of industrial engineering, and culminates in a major design experience in the student’s senior year.

The Industrial Engineering Program is accredited by the Engineering Accreditation Commission of ABET, http://www.abet.org .

General Education Requirements

English Composition
EN 1103	English Composition I	3
or EN 1163	Accelerated Composition I
EN 1113	English Composition II	3
or EN 1173	Accelerated Composition II
Mathematics
See Major Core
Science
See Major Core
Humanities
See General Education courses		6
Fine Arts
See General Education courses		3
Social/Behavioral Sciences
PSY 1013	General Psychology	3
EC 2123	Principles of Microeconomics	3
Major Core
Math and Basic Science
MA 1713	Calculus I	3
MA 1723	Calculus II	3
MA 2733	Calculus III	3
MA 2743	Calculus IV	3
MA 3113	Introduction to Linear Algebra	3
CH 1213	Chemistry I	3
CH 1211	Investigations in Chemistry I	1
CH 1223	Chemistry II	3
PH 2213	Physics I	3
PH 2223	Physics II	3
Math/Science Elective
Choose one of the following:		3
PH 2233	Physics III
MA 3253	Differential Equations I
Engineering Topics
CHE 3413	Engineering Materials	3
ECE 3183	Electrical Engineering Systems	3
EM 2413	Engineering Mechanics I	3
IE 1911	Introduction to Industrial Engineering ¹	1
IE 3121	Industrial Ergonomics Laboratory ¹	1
IE 3123	Industrial Ergonomics ¹	3
IE 3323	Manufacturing Processes ¹	3
IE 3913	Engineering Economy I ¹	3
IE 4333	Production Control Systems I ¹	3
IE 4513	Engineering Administration ¹	3
IE 4543	Logistics Engineering ¹	3
IE 4613	Engineering Statistics I ¹	3
IE 4623	Engineering Statistics II ¹	3
IE 4653	Industrial Quality Control ¹	3
IE 4733	Linear Programming ¹	3
IE 4753	Systems Engineering and Analysis ¹	3
IE 4773	Systems Simulation I ¹	3
IE 4915	Design of Industrial Systems ¹	5
IE 4934	Information Systems for Industrial Engineering ¹	4
ACC 2203	Survey of Accounting	3
EG 1142	Engineering Graphics	2
IE Design Elective ²		3
Engineering Science Elective ³		6
Oral Communication Requirement
CO 1003	Fundamentals of Public Speaking	3
Writing Requirement
GE 3513	Technical Writing	3
Computer Literacy
Fulfilled in Engineering Topics courses
Total Hours		128

¹	A grade of C or better must be made in the course.
²	Any three-hour industrial engineering course not required in curriculum.
³	Courses that can be used for the Engineering Science Elective are EM 2433, EM 3213, EM 3313, ECE 3283 and ME 3533.

Engineering Graphics Courses

EG 1142 Engineering Graphics: 2 hours.

Two hours lecture. One hour demonstration. Presentation of sketching techniques, lettering and computer aided drafting with traditional engineering drawing topics, including orthographic projection, engineering documentation, auxiliary views, and working drawings

EG 1143 Graphic Communication: 3 hours.

One hour lecture. Five hours laboratory. Orthographic projection, instrumental drawing, point, line, plane identities, first and second auxiliaries, computer assisted design and drafting using personal computers

EG 1443 Technology Graphics: 3 hours.

Two hours lecture. Two hours laboratory. The use of drawing to communicate ideas of manufacturing and maintenance in machining, electricity/electronics, welding, and hydraulics/pneumatics

EG 1513 Architectural Graphics: 3 hours.

One hour lecture. Five hours laboratory. Survey of various drawing systems. Practical exercises in orthographic multiview projection, isometric, oblique and perspective drawing systems, with emphasis on lettering, reflections and cast shadows

EG 2513 Construction Drawing: 3 hours.

(Prerequisite: EG 1143 or EG 1413). One hour lecture. Five hours laboratory. Survey of building and construction industries; materials and types of construction; specifications; use of architectural graphic standards and minimum construction requirements; construction details; drawings; lettering

EG 2990 Special Topics in Engineering Graphics: 1-9 hours.

Credit and title to be arranged. This course is to be used on a limited basis to offer developing subject matter areas not covered in existing courses. (Courses limited to two offerings under one title within two academic years)

EG 3113 CATIA Solid Modeling: 3 hours.

Three hour lecture. Design, assembly, and finite element analysis utilizing CATIA, a state-of-the-art 3-D solid modeling package

EG 4000 Directed Individual Study in Engineering Graphics: 1-6 hours.

Hours and credits to be arranged

EG 4990 Special Topics in Engineering Graphics: 1-9 hours.

EG 6990 Special Topics in Engineering Graphics: 1-9 hours.

EG 7000 Directed Individual Study in Engineering Graphics: 1-6 hours.

Hours and credits to be arranged

EG 8990 Special Topics in Engineering Graphics: 1-9 hours.

Industrial Engineering Courses

IE 1911 Introduction to Industrial Engineering: 1 hour.

Three hours laboratory. Concepts of industrial engineering, emphasizing the total systems approach. Introduction to analysis and design of general and industrial systems

IE 2990 Special Topics in Industrial Engineering: 1-9 hours.

IE 3121 Industrial Ergonomics Laboratory: 1 hour.

(Prerequisite: Undergraduate Students: co-requisites: IE 4613, and IE 3123; Graduate Students: co-requisite: IE 4613/6613). Three hours laboratory. Application of human factors/ergonomics concepts in structured assignments involving data collection, analysis, and report generation. Hands-on experience with sophisticated testing equipment

IE 3123 Industrial Ergonomics: 3 hours.

(Undergraduate Students Co-requisite: IE 4613, IE 3121; Graduate Student Co-requisite: IE 4613/6613). Three hours lecture. Analysis of work tasks; ergonomic design principles for manual work design, workplace design, and work environment design; work measurements; and design of wage payment plans

IE 3323 Manufacturing Processes: 3 hours.

(Prerequisites: Grade of C or better in IE 3913, Co-requisites: CHE 3413). Two hours lecture. Three hours laboratory. Manufacturing processes and materials; interrelationship of product design, material properties, and processing methods; robotics and CAM systems; economic factors in material, process, and equipment selection

IE 3913 Engineering Economy I: 3 hours.

(Prerequisite: MA 1713). Three hours lecture. Principles of evaluating alternative engineering proposals. Economic measures of effectiveness, costs and cost estimates, basic comparative models, break even and replacement analysis

IE 4000 Directed Individual Study in Industrial and Systems Engineering: 1-6 hours.

Hours and credits to be arranged

IE 4113 Human Factors Engineering: 3 hours.

(Prerequisite: Junior standing in engineering). Two hours lecture. Three hours laboratory. Human capabilities and limitations affecting communications and responses in man-machine systems. Emphasis on physiological and psychological fundamentals

IE 4123 Psychology of Human-Computer Interaction: 3 hours.

(Prerequisite: PSY 3713 or CS 4663/6663 or IE 4113/6113 or consent of instructor. Two hours lecture. Two hours laboratory. Exploration of psychological factors that interact with computer interface usability. Interface design techniques and usability evaluation methods are emphasized. (Same as CS 4673/6673 and PSY 4743/6743)

IE 4173 Occupational Safety Engineering: 3 hours.

(Prerequisite: Junior standing). Three hours lecture. Causes and prevention of industrial accidents. Analysis of hazardous processes and materials. Design of occupational safety systems and programs

IE 4193 Automotive Engineering: 3 hours.

Three hours lecture. Fundamentals of automotive engineering including power units, mechanical systems, electrical systems and industrial and systems engineering aspects. (Same as CHE/ECE/ME 4193/6193 )

IE 4333 Production Control Systems I: 3 hours.

(Prerequisite: Grade of C or better in IE 4613). Three hours lecture. Principles, analysis, and design of production and inventory planning and control. Demand for forecasting, aggregated planning, inventory management , production scheduling and control systems

IE 4353 Materials Handling: 3 hours.

(Prerequisite: Junior or Senior Standing ). Three hour lecture. Analysis and design of materials handling systems and components. Introduction to facilities design

IE 4373 Automation: 3 hours.

Two hours lecture. Three hours laboratory. Introduction to the various technologies used in both design and manufacturing automation

IE 4513 Engineering Administration: 3 hours.

(Prerequisite: Senior or graduate standing in engineering). Three hours lecture. Study of problems confronting the engineering manager. Includes: Organization and communication theory, internal and external relationships and responsibilities, and designing and implementing managerial systems

IE 4533 Project Management: 3 hours.

(Prerequisites: Grade of C or better in IE 4613). Three hours lecture. Use of CPM, PERT, and GERT for planning, managing and controlling projects. Computer procedures for complex networks

IE 4543 Logistics Engineering: 3 hours.

(Prerequisite: IE 4613 and senior or graduate standing, Corequisite:IE 4733 or MA 4733). Three hours lecture. Analysis of complex logistics networks. Ingetration of supply, production, inventory, transportation, and distribution. Strategies for reducing logistics costs and lead times. Customer-supplier partnerships

IE 4553 Engineering Law and Ethics: 3 hours.

(Prerequisite: Senior standing in engineering). Three hours lecture. The engineer and his relations to the law, to the public, and the ethics of his profession. Includes contracts, patents, copyrights, sales agreements, engineering specifications

IE 4573 Process Improvement Engineering: 3 hours.

Three hours lecture. Introduction to quality and productivity improvement methodologies and tools. The design and implementation of continuous improvement systems in organizations

IE 4613 Engineering Statistics I: 3 hours.

(Prerequisite: MA 1723). Three hours lecture. Introduction to statistical analysis. Topics include: probability, probability distributions, data analysis, parameter estimation,statistical intervals, and statistical inferences

IE 4623 Engineering Statistics II: 3 hours.

(Prerequisite: Grade of C or better in IE 4613). Three hours lecture. Continuation of IE 4613/6613. Introduction to engineering applications of regression, experimental design and analysis, and nonparametric methods

IE 4653 Industrial Quality Control: 3 hours.

(Prerequisite: IE 4613). Three hours lecture. The theory and application of statistical quality control: statistical process control and statistical acceptance sampling

IE 4673 Reliability Engineering: 3 hours.

(Prerequisites: IE 4613 ). Three hours lecture. Probability functions and statistical methods for component life testing and system reliability prediction. System availability and maintainability. Redundancy in time-dependent and time-independent situations

IE 4713 Operations Research I: 3 hours.

(Prerequisites: IE 4613). Mathematical techniques of decision making, queuing, networks, simulation and dynamic programming

IE 4733 Linear Programming: 3 hours.

(Prerequisites: MA 3113).Three hours lecture.Theory and application of linear programming;simplex algorithm, revised simplex algorithm,duality and sensitivity analysis,transportation and assignment problems algorithms, integer and goal programming. (Same as MA 4733/6733)

IE 4743 Engineering Design Optimization: 3 hours.

(Prerequisite: Consent of instructor ). Three hours lecture. Introduction to optimality criteria and optimization techniques for solving constrained or unconstrained optimization problems. Sensitivity analysis and approximation. Computer application in optimization. Introduction to MDO. ( Same as ASE 4553/6553 and EM 4143/6143 )

IE 4753 Systems Engineering and Analysis: 3 hours.

(Prerequisite: Grade of C or better in IE 3913 and IE 4613). Three hours lecture. Systems concepts, methodologies, models and tools for analyzing, designing, and improving new and existing human-made systems

IE 4773 Systems Simulation I: 3 hours.

(Prerequisite:Grade of C or better in IE 4934 or equivalent programming course and grade of C or better in IE 4613). Three hours lecture. The principles of simulating stochastic systems with an emphasis on the statistics of simulation and the use of discreet-even simulation languages

IE 4915 Design of Industrial Systems: 5 hours.

(Prerequisites: Grade of C or better in the following courses : IE 3123,IE 3121, IE 3323, and IE 4333). Two hours lecture. Eight hours laboratory. The fundamental procedures and techniques in design of operational systems. Emphasis on both sub-systems and total systems

IE 4923 Six Sigma Methods and Project: 3 hours.

(Prerequisites:IE 4623/6623, IE 4653/6653 ) One hour lecture Four hours laboratory. Introduction of six sigma and problem solving methodologies . Application of learned methodologies in selecting, performing , and completing a process involvement project

IE 4934 Information Systems for Industrial Engineering: 4 hours.

(Prerequisite: Grade of C or better in IE 1911) Three hours lecture. Three hours laboratory An introduction to the design and development of information systems for use in industrial engineering applications

IE 4990 Special Topics in Industrial and Systems Engineering: 1-9 hours.

IE 6113 Human Factors Engineering: 3 hours.

IE 6123 Psychology of Human-Computer Interaction: 3 hours.

IE 6173 Occupational Safety Engineering: 3 hours.

(Prerequisite: Junior standing). Three hours lecture. Causes and prevention of industrial accidents. Analysis of hazardous processes and materials. Design of occupational safety systems and programs

IE 6193 Automotive Engineering: 3 hours.

IE 6333 Production Control Systems I: 3 hours.

IE 6353 Materials Handling: 3 hours.

(Prerequisite: Junior or Senior Standing ). Three hour lecture. Analysis and design of materials handling systems and components. Introduction to facilities design

IE 6373 Automation: 3 hours.

Two hours lecture. Three hours laboratory. Introduction to the various technologies used in both design and manufacturing automation

IE 6513 Engineering Administration: 3 hours.

IE 6533 Project Management: 3 hours.

(Prerequisites: Grade of C or better in IE 4613). Three hours lecture. Use of CPM, PERT, and GERT for planning, managing and controlling projects. Computer procedures for complex networks

IE 6543 Logistics Engineering: 3 hours.

IE 6553 Engineering Law and Ethics: 3 hours.

IE 6573 Process Improvement Engineering: 3 hours.

Three hours lecture. Introduction to quality and productivity improvement methodologies and tools. The design and implementation of continuous improvement systems in organizations

IE 6613 Engineering Statistics I: 3 hours.

IE 6623 Engineering Statistics II: 3 hours.

IE 6653 Industrial Quality Control: 3 hours.

(Prerequisite: IE 4613). Three hours lecture. The theory and application of statistical quality control: statistical process control and statistical acceptance sampling

IE 6673 Reliability Engineering: 3 hours.

IE 6713 Operations Research I: 3 hours.

(Prerequisites: IE 4613). Mathematical techniques of decision making, queuing, networks, simulation and dynamic programming

IE 6733 Linear Programming: 3 hours.

IE 6743 Engineering Design Optimization: 3 hours.

IE 6753 Systems Engineering and Analysis: 3 hours.

IE 6773 Systems Simulation I: 3 hours.

IE 6923 Six Sigma Methods and Project: 3 hours.

IE 6934 Information Systems for Industrial Engineering: 4 hours.

IE 6990 Special Topics in Industrial and Systems Engineering: 1-9 hours.

IE 7000 Directed Individual Study in Industrial and Systems Engineering: 1-6 hours.

Hours and credits to be arranged

IE 8000 Thesis Research/ Thesis in Industrial Engineering: 1-13 hours.

Hours and credits to be arranged

IE 8143 Applied Ergonomics Methods: 3 hours.

Three hours lecture. Provide practical usage and theoretical background of select tools for ergonomic evaluation of workers and work places, tasks, and environments using real world scenarios

IE 8153 Cognitive Engineering: 3 hours.

Three hours lecture. Implications of human perceputal, cognitive, and psycho-motor capabilities on the design of systems for effective, efficient and safe human-machine performance

IE 8163 Macroergonomics: 3 hours.

Three hours lecture. Provides a foundational review of Macrergonomics, examing the personnel, technolgical, and environmental factors influencing organizations. Addresses the relationship between macro- and micro- ergonomics

IE 8333 Production Control Systems II: 3 hours.

(Prerequisites: IE 4333 ). Three hours lecture. Inventory systems, static and dynamic production planning, operations scheduling and forecasting systems

IE 8353 Manufacturing Systems Modeling: 3 hours.

(Prerequisites: IE 4733 and IE 4773). Three hours lecture. A study of models used to describe and analyze manufacturing systems. Development of models using queuing networks, mathematical programming, simulation, and other techniques

IE 8583 Enterprise Systems Engineering: 3 hours.

(Prerequisite: Consent of instructor). Three hours lecture. Focuses on the design and improvement of an enterprise through the use of engineering tools and methods, based on the systems perspective of industrial engineering

IE 8723 Operations Research II: 3 hours.

(Prerequisite: IE 4713). Problem formulation, general inventory theory, restricted inventory models. Markovian and queuing processes, sequencing and coordination, game theory, search problems

IE 8733 Decision Theory: 3 hours.

(Prerequisite: IE 4613). Three hours lecture. A quantitative development of the decision making process. Criteria for decision making. Treatment of risk under uncertainty and in conflict situations

IE 8743 Nonlinear Programming I: 3 hours.

(Prerequisite: IE 4733 or MA 4733). Three hours lecture. Optimization of nonlinear functions; quadratic programming, gradient methods, integer programming; Lagrange multipliers and Kuhn-Tucker theory

IE 8753 Network Flows and Dynamic Programming: 3 hours.

(Prerequisites:MA 2733 and IE 4613).Three hours lecture. Applications of network optimization problems and simplex algorithm;and dynamic programming to industrial/ management problems. Study of serial/non-serial multistage deterministric and stochastic systems. Principles of optimality

IE 8773 Systems Simulation II: 3 hours.

(Prerequisite: IE 4773/6773 ). Three hours lecture. Continuation of IE 4773. Includes: Advanced theory and practice of simulation. The statistics of simulation. Simulation languages. Continuous simulations

IE 8793 Heuristics in Optimization: 3 hours.

Three hours lecture. A study of heuristic methods and their applications to optimization problems

IE 8913 Engineering Economy II: 3 hours.

(Prerequisites: IE 3913 and IE 4613). Three hours lecture. Advanced principles and methods for engineering analysis of industrial problems. Topics include criteria for decisions, project investment and analysis, and elements of risk and uncertainty

IE 8990 Special Topics in Industrial and Systems Engineering: 1-9 hours.

IE 9000 Dissertation Research /Dissertation in Industrial Engineering: 1-13 hours.

Hours and credits to be arranged