IE57900 - Design and Control of Production and Manufacturing Systems

Fall 2018

Days/Time: TBA / TBA
Credit Hours: 3

Learning Objective:
Learn to design and control production/mfg/service systems through a science-based understanding of production system operations and flow.

To achieve cost-effective, sustainable production/mfg/service systems, a thorough understanding of production system operations and flow is essential. This course focuses on the fundamental understanding of the factors affecting operational performance of production systems. We develop this understanding by discussing the basic models and techniques of inventory control, queuing analysis, job scheduling, and supply networks, and their role in the context of analytics and informatics.

Topics Covered:
Inventory control - EOQ model, dynamic lot-sizing, dynamic lot-sizing in supply chains/networks, news vendor model, base stock model, (Q, r) and (s,S) models; Queuing flow analysis - M/M/1, M/M/s, M/M/s/k, M/G/1, G/M/1, Multi-class queues, Queuing networks; Scheduling - single machine, parallel machines, flow shops, job shops, open shops; supply decision networks.

Understanding of basic concepts of production control. Undergraduate-level statistics and optimization.

Applied/Theory: 60/40

Web Address:

Web Content:
Syllabus, grades, lecture notes, homework assignments, and solutions.

Approximately six assignments accepted via Blackboard.

Required and may or may not be job related. The focus topic of this semester is the quantitative analysis of the impact of RFID technology on the operational performance and sustainability of production, manufacturing, or service systems. Students will work in teams of three, desirably teaming off- and on-campus students. This project involves a formal technical report and presentation.

Two exams and a final exam.

No textbook required. Three optional reference books:
1. W. J. Hopp and M.L. Spearman, "Factory Physics," McGraw-Hill, 2008 or later;
2. M. Pinedo, "Scheduling: Theory, Algorithms and Systems," Springer, 2008;
3. A. Dolgui and J-M. Proth, "Supply Chain Engineering," Springer, 2010.

Computer Requirements:
ProEd minimum computer requirements; Internet access is essential since all course materials and assignments will be posted on the web. Case studies will require basic PC use, as in spreadsheets and word processing. Course assignments, announcements, solutions, and class notes are all posted on the WebCT site.

ProEd Minimum Requirements: view

Tuition & Fees: view

Other Requirements:


T. B. D.
West Lafayette, IN 47907

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