INDUSTRIAL AND ROBOTICS ENGINEERING
223
IE 440: Lean Systems II The purpose of this course is to teach the student the key methods for implementation of Lean and allow the student to practice using the methods. The focus will be on understanding and using these methods as practiced in industry and health care. 3 credits IE 450: Simulation In this course, the student will develop an understanding and need for simulation in practice. The course will focus on basic and advanced concepts in simulation including comparing the simulated results with analytical results, and successfully develop simulation models useful in production/manufacturing, supply chains, transportation, and other areas related to Industrial and Manufacturing Engineering. Simulation packages such as SIMIO will be integrated and used throughout the course. Prerequisite: IE 350 3 credits, Fall IE 455: Operations Research II Stochastic models in operations research; Review of basic probability, discrete time Markov chains; continuous time Markov chains; discrete and continuous phase type distributions; birth-and-death processes; elementary queuing models involving Poisson arrivals and exponential service times; advance queuing models; basic concepts in simulation and simulation of various processes. 3 credits IE 465: Healthcare Systems Engineering This course examines the technical structure of the healthcare delivery system and the role that industrial, and systems engineering (ISE) plays in its design and improvement. Included will be how healthcare systems work in hospitals, medical offices, clinics and other healthcare organizations. Traditional ISE methods for improving quality, patient safety, and employee productivity and satisfaction will be presented within a systematic application of value chain engineering designed to produce lean processes. 3 credits IE 475: Robotics I This course covers the basic theory and methods of robot operation and programming. The laboratory portion of the course will focus on programming a robot for specific pick and place tasks. 3 credits IE 476: Robotics II This course covers advanced robot programming and movement. Advanced programming in the laboratory will include integration of the robot into a work cell. 3 credits IE 488: Industrial and Robotics Engineering Internship The credit-bearing course provides students with practical real-world experience in an engineering, technical, service, industrial, clinical or research setting. During an internship, students apply knowledge and skills learned in the classroom to solving problems in industrial and robotics engineering, or a closely related field. Students must have an internship secured and meet with the internship coordinator for their program prior to registering for this course. A brief summary report and a completed supervisor’s evaluation form is required for notation on the transcript. 1 to 6 credits IE 491-496: Special Topics in Industrial Engineering
1 to 3 credits
IE 495: Capstone This course provides the student with the challenge of integrating and synthesizing general engineering knowledge, particularly in industrial and manufacturing disciplines, into creatively solving real-world, open-ended problems in a team setting. This requires defining a project work plan, developing the problem statement, objectives and evaluation criteria; data collection; selection of appropriate analytical and production techniques; developing and integrating recommendations; justifications of the recommended course of action; and written and oral presentation of results. The project could involve production systems or product design where the planning can extend to product realization. Prerequisite: IE 201 3 credits, Spring