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Course Criteria
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3.00 Credits
Introduction to the analytical tools of machine science such as heat treatment, metalworking, welding, vibrations, control theory, thermal processing, machine operations, and their applications to the solution of manufacturing problems. Introduction to machine operations and capabilities, applications and advanced material forming/processes techniques. Emphasis is on the integration of machine processes and applications to manufacturing problems. Spring semester. Lecture 3 hours. Prerequisites: ENGR 2220, ENGR 2460, ENGR 2460L with minimum grades of C; PHYS 2310; CHEM 1110 and CHEM 1110L or department head approval. Supplementary course fee assessed.
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3.00 Credits
The detailed study of designing a product or service through the processes and systems of making and delivering the product, and controlling the operations. Fundamental coverage of the concepts of competitiveness, productivity, forecasting, supply chain management, inventory management, JIT, MRP, ERP, and queuing theory basic quantitative techniques are explored. Spring semester. Lecture 3 hours. Prerequisites: ENIE 3510 with a minimum grade of C or department head approval. Supplementary course fee assessed.
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3.00 Credits
Simulation of complex discrete-event systems with applications in industrial and service organizations. Introduction to modeling, random number generation, simulation design, and current simulation software package. Applications include a variety of industrial situations, including manufacturing and logistics simulation. Spring semester. Lecture 3 hours. Prerequisites: ENGR 2250 and ENIE 4580 with minimum grades of C or department head approval. Pre- or Corequisite: ENIE 4410. Supplementary course fee assessed.
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3.00 Credits
Culminating design experience in industrial engineering. Discussion of operations systems, manufacturing, quality, ergonomics, layout and scheduling. Includes team project with an application in manufacturing or service industry that requires both on- and off-campus activities for project execution. Oral and written communication of progress and results is emphasized. Discussion of ethics, professional practice, and continued learning. Spring semester. Lecture 1 hour, project 4 hours. Prerequisites: ENGR 3850 and ENIE 3500, ENIE 3510, ENIE 4570, ENIE 4580 with minimum grades of C or department head approval. Supplementary course fee assessed.
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3.00 Credits
Introduction to non-linear programming, dynamic programming, network models, and queuing theory. Emphasizes the use of game theory, inventory theory, queuing theory, Markov chains, forecasting, and network techniques with the engineering applications. Lecture 3 hours.
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3.00 Credits
Introduction to concepts of Value Engineering and demonstration of the application of techniques to maximize the value in a product, process, or service while minimizing cost. Topics include functional analysis, functional costing, generation of alternative designs, evaluation of alternative designs, proposal preparation and presentation. Project required.
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3.00 Credits
The basic information about accident prevention methods and techniques, plant inspection, health hazards and their control, accident records and reports, employee selection, placement and counseling based on legal, management, and technical aspects of the application of system safety engineering. Lecture 3 hours. Prerequisites: ENIE 3540 with minimum grade of C, Senior standing, or department head approval. Supplementary course fee assessed.
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3.00 Credits
The design and analysis of quality systems. Fundamental coverage of statistical process control, quality control concepts, control charts, product specifications, process control, acceptance sampling systems, and other means of assurance widely used in many industries to improve product and service quality and to reduce costs. Introduction to reliability considerations and calculations. Fall semester. Lecture 3 hours.
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3.00 Credits
Methods, techniques, and computer algorithms for planning facility layout, facility location, and activities and equipment planning are presented. Scheduling strategies that affect facility layout including push vs. pull operation, batch sizes, and dispatching rules are also discussed. Cellular technology, material handling, facility planning data collection methods, process flow-charting, and simulation of manufacturing facility layout are demonstrated. Fall semester. Lecture 3 hours.
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3.00 Credits
Introduction to and application of the basic concepts, design, development, and uses of engineering information systems. Topics include architecture and components of engineering information systems, problem analysis, modeling, design, development, and system maintenance. Theoretical and practical issues related to the manipulation of engineering information and design of queries are discussed. Examples of engineering information systems are provided. Course culminates with a project. Fall semester. Lecture: 3 hours; laboratory work included.
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