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Format: General
course info; class duration; prerequisite; semester
offered
IE 3. Introduction to
Industrial Engineering (3)
Systems concepts, the
industrial organization and its functions; overview of
industrial engineering tools. 3 hrs (class). PR. Junior
standing. (1)
IE 21. Industrial
Processes (3)
Industrial processes and their
effects on production system decisions; metal, plastic,
ceramic, elastomer, fiber, wood and pulp processes, etc.
3 hrs (class). PR. CHEM 15, PHYS 72. (1)
IE31. Industrial
Organization and Management (3)
Basic features governing the
industrial organization; administration and financing of
industries; relations between management and labor. 3
hrs (class). PR. Junior standing. (1)
IE 32. Methods of
Engineering (5)
Design and measurement of work;
specification of methods and performance times;
productivity concepts and techniques; systems and
procedures; human factors engineering; value
engineering. 7 hrs (4 class, 3 lab). PR. IE 21 and IE
31. (2)
IE 134. Ergonomics (3)
Anthropometry; biomechanics;
human task analysis; displays and control; work
environments; ergonomic work design and evaluation. 5
hrs (2 class, 3 lab). PR. IE 32. (1)
IE 135.
Industrial Quality
Control (3)
Statistical process control
charts; specifications and tolerances; acceptance
sampling; realibility and life testing. 3 hrs (class).
PR. STAT 101. (1)
IE 136.
Industrial Safety
and Health (3)
Accident prevention and
reduction of health hazards in the work environment;
control of noise, vibration, and heat stress. 3 hrs
(class). PR. IE 134. (1)
IE 141. Operations
Research I (3)
Operations research methodology;
recurrent processes and problems industrial systems;
optimization models for linear systems; linear
programming graph theory, and network analysis. 3 hrs
(class) PR. ENSC 21. (2)
IE 142. Operations
Research II (3)
Optimization techniques and
applicationa; integer programming, dynamic programming,
simulation heuristics; competitive waiting line,
inventory and large scale systems. 3 hrs (class). PR. IE
141. (1)
IE 150. Systems
Evaluation (3)
Criteria for evaluation of
systems; technological economic, and human factors. 3
hrs (class). PR. IE 32 or COI. (2)
IE 151. Production
Systems (3)
Capacity Planning; forecasting;
production planning, scheduling and inventory control,
maintenance; production control; production information
system. 5 hrs (2 class, 3 lab). PR. IE 135, IE 142 and
IE 150. (2)
IE 152.
Manufacturing
Planning and Design (3)
Location and layout of
facilities; materials handling, storage and
distribution. 3 hrs (class). PR. IE 151. (1)
IE 153.
Project
Development and Management (3)
Phases of project feasibility
studies; project development, evaluation and management.
5 hrs (2 class, 3 lab). PR. IE 151. (1)
IE 154.
Information
Systems 1 (3)
Concepts and frameworks of
information systems; analysis and design of information
systems. 3 hrs (class). PR. ENSC 26. (1)
IE 155.
Industrial
Systems Design (3)
Total systems design;
integration of subsystems with concentration on optimal
and total systems implementation. 5 hrs (2 class, 3
lab). PR. IE 153. (1,2)
IE 156. Information
Systems II (3)
Information Systems II
(3). Implementation considerations in information
systems design; relational database systems. 3 hrs
(class). PR. IE 154. (1,2)
IE 181. Systems
Simulation (3)
Systems Simulation (3).
Representation and simulation of systems; random number
generation; record processing and generation of
statistics. 5 hrs (2 class, 3 lab). PR. IE 142. (2)
IE 183.
Stochastic
Processes in Industrial Engineering (3)
Stochastic Processes in
Industrial Engineering (3). Independent Bernoulli trials
and Poisson processes; renewal theory and Markovian
chains. 3 hrs (class). PR. STAT 101. (1,2)
IE 190. Special Problems
(3)
3 hrs (class). PR. 5th
year standing. (1,2)
IE 191. Special Topics
(3)
3 hrs (class). PR. 5th
year standing (1,2)
IE 199.
Undergraduate
Seminar (1)
1 hr (class). PR. 5th
year. (1)
IE 200.
Undergraduate
Thesis (1-6)
IE 200a.
Practicum (1-6)
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