Bradley Logo Schedule of Classes  
Summer Session I 2017  

Industrial & Manufacturing Engineering
Joseph Chen • Morgan Hall 110 • 677-2740
IME311Introduction to Engineering Statistical Methods (3 hours)
Prerequisite: MTH 122.
 01 *R* MTWT12:30 PM -2:30 PM MOR305 Gary Chensin Lin  
IME410Selected Topics in Industrial & Manufacturing Eng (1 to 6 hours)
Prerequisite: Consent of instructor.
 01 *R* Arr     Joseph Chen  
IME445Computer Aided Manufacturing (3 hours)
Prerequisite: IME 341 and IME 395; or consent of instructor
 01 *R* MTWT2:30 PM -4:00 PM MOR307 Ye Li  
IME461Simulation of Manufacturing and Service Systems (3 hours)
Prerequisite: IME 361; or consent of instructor.
 01 MTWT3:30 PM -5:30 PM MOR305 Gary Chensin Lin  
IME511Engineering Statistical Analysis (3 hours)
Prerequisite: consent of instructor.
 01 MTWT3:00 PM -5:00 PM MOR108 Fariborz Tayyari  
IME522Manufacturing Quality Control (3 hours)
Prerequisite: One semester of statistics or consent of instructor. Not open to students with credit in IME 422
 01 *R* Arr     K S Krishnamoorthi Online Course
IME524Six Sigma Theory and Methodologies (3 hours)
Prerequisite: IME 522 or consent of instructor.
 01 *R* MTT3:00 PM -6:00 PM MOR306 Joseph Chen  
IME553Advanced Computer Aided Manufacturing (3 hours)
Prerequisite: IME 445.
 01 Arr     Ye Li  
IME561Simulation of Manufacturing & Service Systems (3 hours)
Prerequisite: IME 511, IME 514; or consent of instructor. Not open to students with credit in IME 461.
 01 *R* MTWT3:30 PM -5:30 PM MOR305 Gary Chensin Lin  
IME581Cellular Lean Manufacturing Systems (3 hours)
Prerequisite: Basic Statistics, automated manufacturing processes, 3-D modeling, IME 583, or consent of instructor. Not open to students with credit in IME 481.
 01 *R* Arr     Joseph Chen  
IME587Occupational Safety and Health (3 hours)
Prerequisite: Graduate Standing and Consent of instructor. Not open to students with credit in IME 487.
 01 MTWT12:00 PM -2:00 PM MOR108 Fariborz Tayyari  
IME691Research (0 to 3 hours)
Prerequisite: Unconditional graduate status, minimum GPA of 3.2 after 15 hours of graduate work, and consent of instructor
 01 *R* Arr     Joseph Chen  
 
Engineering data collection and analysis; discrete and continuous probability models; confidence intervals; tests of hypotheses; regression analysis; essentials of statistically designed experiments; engineering application of statistical methods. Extensive use of statistical computer software.
Topics of special interest which may vary each time course is offered. Topic stated in current Schedule of Classes. Course may be repeated under different topics for maximum of six hours credit.
Introduction to the theory and practice of machining processes using Computer Numerically Controlled (CNC) technology; NC programming operations for CNC mills and lathes; transfer of parts descriptions into detailed process plans, tool selection, and NC machine codes with Design for Machining (DFM) concept verified through laboratory work; Computer-assisted CAD/CAM NC programming is emphasized. Laboratory work includes CNC machine setup, tooling setup, manual and computer assisted NC programming verification and operation.
Procedures and rationale for planning, designing, and implementing computer simulation experiments used to analyze manufacturing and service systems in engineering, business, and social sciences. Use of a 3D state-of-art simulation software tool. Cross-listed with IME 561.
Concepts in probability and statistics from practical and theoretical angles. Definition of probability, random variable, distribution, important discrete and continuous distributions, sampling distribution of X-bar, Central Limit Theorem, t, chi-squared and F distributions, estimation, hypothesis testing, regression analysis, and analysis of variance.
Analysis of factors affecting product quality during manufacturing; process control charts; process capability studies; error of measurement; sampling plans; motivation programs; quality audit; organization. A research paper required. Cross listed with IME 422
Comparative study of philosophies of using quality as a business management tool, with special reference to Deming's Theory of control charts and a study of their strengths and weaknesses. Special control charts such as CUSUM chart, median chart, moving average chart, and their application. The latest published articles used to keep up-to-date in quality technology.
Computer Aided Manufacturing (CAM) within the CAD/CAM and CIM contents. Computer Assisted Process Planning (CAPP), Computer Assisted Tool Design, Computer Assisted NC Programming (APT), Interactive Graphics, NC Programming, and the elements of computer control of manufacturing equipment (CNC). A semester project.
Procedures and rationale for planning, designing, and implementing computer simulation experiments used to analyze manufacturing and service systems in engineering, business, and social sciences. Use of a 3D state-of-art simulation software tool. Research projects required. Cross listed with IME 461.
This course reviews the principles and concepts required for integrated production System in order to meet customer demand in production, quality, on-time delivery, and continuously reducing manufacturing cost. Emphasis is placed on applying lean manufacturing principles, simulation techniques, and Kaizen methodologies through hands-on projects. A research paper is required. Cross listed as IME 481.
Occupational safety and health standards and regulations. Injury and illness statistics. Employer's responsibilities and bookkeeping requirements. Hazard analysis and systems safety, occupational and environmental hazards and controls. Research projects required. Cross listed with IME 487.
Research project or professional problem to be selected by student and advisor. May be repeated to a maximum of 3 hours credit. Beyond initial enrollment the student must register for 0 hours.
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