USF 1998-99 Undergraduate Catalog - Pages 198 - 199 | Course Descriptions |
Students pursuing the Bachelor of Science in Industrial Engineering degree program take designated, specialized coursework in industrial processes, work analysis, production control, facilities design, operations research, human factors, computer simulation, quality control, and robotics and automation. This coursework is supplemented by engineering electives and comprehensive industrial engineering design projects.
Students completing this program are prepared for graduate study or for careers in a broad range of industries, business, and public service areas. The strength of industrial engineering lies, in part, in its breadth and the applicability of its common body of knowledge in a wide variety of enterprises. Students may be involved in traditional areas of manufacturing and production, or state-of-the-art functions in automation and robotics. The same engineering principles are also applied to business organizations, service delivery systems, and governmental administration.
The schedule which follows indicates how a serious, well prepared student who can devote full time to coursework can satisfy degree requirements in four academic years. Students without a solid foundation and those who cannot devote full time to academics should plan on a slower pace.
Semester I
ENC 1101 Freshman English I
MAC 2281 Engr. Calculus I
CHM 2041 General Chemistry I
EGS 1113 Intro. to Design Graphics
*Fine Arts Elective
*Social Science Elective -
Semester II
ENC 1102 Freshman English II
MAC 2282 Engr. Calculus II
CHM 2046 General Chemistry II
CHM 2045L Gen. Chemistry I Lab
PHY 2048 General Physics I
PHY 2048L Gen. Physics I Lab
EGN 2210 Computer Tools for Engineers
Semester III
PHY 2049 General Physics II
PHY 2049L Physics II Lab
MAC 2283 Engr. Calculus III
EGN 3365L Materials Engineering I
EGN 3311 Statics
EGN 3443 Eng. Statistics I
Semester IV
MAP 2302 Differ. Equations
EGN 3373 Intro. to Electrical Systems I
EGN 3321 Dynamics
EGN 3343 Thermodynamics I
*Social Science Elective
Summer Term
ENC 4931 Engineering Communications
ENG 3613 Engineering Economy
EGN 4450 Intro. to Linear Systems
*Science Elective
Semester V
EIN 4312L Work Analysis
EGN 3375 Intro. to Electrical Systems III
EIN 4411L Manufacturing Processes
EIN 4933 Managerial Cost Accounting
ESI 4312 Deterministic O.R.
Semester VI
ESI 4313 Probabilistic O.R.
EIN 4313L Human Factors
EIN 4601 Automation and Robotics
EIN 4333 Production Control
*Historical Perspectives Elective
Semester VII
ESI 4224 Design of Experiments
ESI 5423 Industrial Systems Simulation
EIN 4364L Facilities Design I
*Historical Perspectives Elective
*ALAMEA Perspective Elective
Semester VIII
ESI 4911 Senior Project
EIN 4365L Facility Design II (MW/MI)
ESI 4221 Industrial Statistics & Quality Control
Technical Elective
*MW/MI (Non-Engineering)
*Approved General Education Requirements
Complete the A.A. degree at the community college. Some courses required for the major may also meet General Education Requirements thereby transferring maximum hours to the university. A minimum of 60 semester hours must be completed at the university. If a student wishes to transfer without an A.A. degree and have fewer than 60 semester hours of acceptable credit, the student must meet the university’s entering freshman requirements including ACT or SAT test scores, GPA, and course requirements.
The following are transferable courses from the Community College that will be accepted in the Math/Science/Engineering areas:
This is a limited access program involving special admissions requirements. Please be aware of the immunization, foreign language, continuous enrollment policies of the university, and qualitative standards required.
Procedures for Applying to the College of Engineering
Students should complete and submit an Engineering Admissions Application to the College of Engineering Advising Office. Freshmen and Sophomores must submit copies of high school transcripts, SAT and ACT test scores to the College of Engineering, Advising Office. This is in addition to records requested by the University’s Admissions Office. Transfer applicants must furnish transcripts from previously attended institutions to the College of Engineering, Advising Office. This is in addition to transcripts sent to the University’s Admissions Office. Applicants whose native language is other than English must submit TOEFL scores to the College of Engineering. The minimum TOEFL scores must be 550. Credentials must be received in the Engineering Advising Office 30 days prior to the date of applicable term. Failure to comply will result in the application being denied by the College of Engineering. Credentials will be held for one year. If application is not updated within that year, credentials must be re-submitted.
Engineering Admissions Requirements
Transfer students must have completed the equivalent USF Engineering Calculus sequence with a 2.0 GPA; must have completed one year of equivalent USF General Physics and Chemistry courses with a minimum of 2.0 GPA; must have an overall GPA of 2.0 or better.
USF 1998-99 Undergraduate Catalog - Page 203
Prerequisites (State Mandated Common Prerequisites)
Math
Calculus
USF C/C
MAC 2281 MAC 2311 (3)
MAC 2282 MAC 2312 (3)
MAC 2283 MAC 2313 (3)
Differential Equations
MAP 2302 MAP 2302 (3)
Chemistry
General
USF C/C
CHM 2041 CHM 1045 (3)
CHM 2045L CHM 1045L (1)
CHM 2046 CHM 1046 (3)
Physics
USF C/C
PHY 2048 PHY 2048 (3)
PHY 2048L PHY 2048L (1)
PHY 2049 PHY 2049 (3)
PHY 2049L PHY 2049L (1)
Graphics
USF C/C
EGS 1113 EGS 1111 (3)
Fortran
USF C/C
EGN 2210 COP 2202 (3)
INDUSTRIAL AND MANAGEMENT SYSTEMS ENGINEERING FACULTY
Chairperson: P.E. Givens; Professor Emeritus: R. J. Wimmert; Professors: J.L. Brown, P. E. Givens, S. K. Khator, L.A. Weaver; Associate Professors: A. L. Callahan, T. K. Das, O. G. Okogbaa, W. A. Miller; Assistant Professor: P. R. McCright, M X. Weng; Lecturer: S. N. Busansky, D. K. Gooding.
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USF 1998-99 Undergraduate Catalog - Pages 209 - 210
EIN 4304C INTRODUCTION TO INDUSTRIAL ENGINEERING (3)
History of industrial engineering. Introduction to basic industrial processes and controls. Students research specific industries and visit local industrial plants.
EIN 4312C WORK ANALYSIS (3)
PR: EGN 3613, EGN 3443. Operation analysis and workspace design, work measurement, standard data, ergonomics, and labor costing.
EIN 4313C HUMAN FACTORS (3)
Design of man-machine systems, by taking into consideration both human and machine capabilities and limitations.
EIN 4333 PRODUCTION CONTROL (3)
PR: ESI 4312. Planning and control of production systems. Includes: forecasting and inventory control models, scheduling and sequencing, MRP, CPM/PERT, and resource requirements.
EIN 4364C FACILITIES DESIGN I (3)
PR: EIN 4312 EIN 4411. Design and modification of industrial production and material handling facilities. Basic analysis techniques, use of computer programs, automated warehousing.
EIN 4365 FACILITIES DESIGN II -XMW (3)
PR: EIN 4364. CAD/CIEM, complete design of a plant facility. Course to use computers and software geared toward plant design and operation. A team of students is to be responsible for the complete project.
EIN 4411 MANUFACTURING PROCESSES (3)
PR: EGN 3365. The study of basic manufacturing processes and precision assembly. CAD/CAM including NC programming.
EIN 4601L AUTOMATION AND ROBOTICS (3)
PR: EIN 4411. Introduction to the practices and concepts of automation as applied to material handling, inventory storage, material transfer, industrial processes and quality control.
EIN 4933 SPECIAL TOPICS IN INDUSTRIAL ENGINEERING (1-5)
Special topics related to economic analysis, optimization, human factors, manufacturing and automation aspect of industrial systems. Repeatable up to 5 credit hours.
EIN 5245 WORK PHYSIOLOGY AND BIOMECHANICS (3)
PR: CC. Human physiological limitations encountered in the design, analysis and evaluation of man-machine systems.
EIN 5253 HUMAN PROBLEMS IN AUTOMATION (3)
The study and analysis of combined human operations, automated processes, and robotics in industrial environments.
EIN 5301C INDUSTRIAL ENGINEERING CONCEPTS (3)
PR: CC. Survey of industrial and management engineering methodology. Work measurement, methods, production and inventory control, and facility design.
EIN 5322 PRINCIPLES OF ENGINEERING MANAGEMENT (3)
Introduction to the fundamentals of accounting, finance, management, and marketing as needed by engineers, scientists, and other professionals in managerial positions.
EIN 5357 ENGINEERING VALUE ANALYSIS (3)
Statistical models for analyzing engineering alternatives from an economic viewpoint. The use of advanced engineering economy concepts in solving industrial problems.
EIN 5388 TECHNOLOGICAL FORECASTING (3)
Introduction to forecasting techniques used to plan and schedule production and inventory control functions. Smoothing and decomposition time-series methods, regression methods, and autoregressign/moving average methods. Integrating forecasting and planning into the engineering organization.
EIN 5914 SPECIAL INDUSTRIAL PROJECTS (1-3)
PR: CC.
ESI 4221 INDUSTRIAL STATISTICS AND QUALITY CONTROL (3)
PR: EGN 3443. Application of statistical techniques to the control of industrial processes. Control charts, acceptance sampling, design of experiments, analysis of variance and regression.
ESI 4244 DESIGN OF EXPERIMENTS (3)
PR: EGN 3443. Activity forecasting models and control. Design and use of inventory control models, both designs applicable to engineering analyses. Analysis of variance and regression.
ESI 4312 DETERMINISTIC O. R. (3)
PR: EGN 4450. An introduction to operations research techniques with particular emphasis on deterministic models. Linear programming, dynamic programming, goal programming, integer programming, and PERT/CPM networks are considered.
ESI 4313 PROBABILISTIC O. R. (3)
PR: EGN 3443. Probabilistic models in Operations Research. Discrete and continuous time processes, queueing models, inventory models, simulation models, Markovian decision process and decision analysis.
ESI 4161C COMPUTERS IN INDUSTRIAL ENGINEERING (3)
PR: EGN 2210. Use of micro and mini computer systems for industrial engineering applications. Review of available software packages. Use of computers for CAS/CAM system.
ESI 4523 INDUSTRIAL SYSTEMS SIMULATION (3)
PR: ESI 4313. A study of the development and analysis of computer simulation models: Monte Carlo, time-slice, and next-event. Introduction to special purpose simulation languages.
ESI 4905 INDEPENDENT STUDY (1-5)
PR: CI. Specialized independent study determined by the student's needs and interests. May be repeated up to 15 credit hours. (S/U only.)
ESI 4911 SENIOR PROJECT (2)
PR: EIN 4333, EIN 4312, EIN 4411. Analysis and design of systems in a directed project format. Individual or group work consisting of project proposal, project activities, and final report. Student projects are directed by faculty, with chairman’s approval.
ESI 5219 STATISTICAL METHODS FOR ENGINEERING MANAGERS (3)
Study of statistical methods applied to engineering management problems involving estimation and prediction under conditions of uncertainty. Not open to students who have had EGN 3443.
ESI 5236 RELIABILITY ENGINEERING (3)
PR: EGN 3443 or equivalent. Fundamental concepts of reliability, estimation of reliability of systems and components. Measures of availability, maintainability and reliability.
ESI 5306 OPERATIONS RESEARCH FOR ENGINEERING MANAGEMENT (3)
Linear programming, non-linear programming, queueing, inventory, network analysis. Not open to students who have had ESI 4315.
ESI 5470 MANUFACTURING SYSTEMS ANALYSIS (3)
PR: CC. The study of systems of manufacturing entities such as machine tools, robots, and materials handlers. Emphasis is on mathematical description of integrated systems and system optimization.
ESI 5522 COMPUTER SIMULATION II (3)
PR: ESI 4523 or equivalent. Design of discrete and continuous simulation models. Model validation and verification. Statistical analysis of simulation model output.
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Karen M. Hall - webCat@ugs.usf.edu
Effective Date: Semester I, 1998
http://www.ugs.usf.edu/catalogs/9899/indeng.htm