| source University of Washington (X) |
level |
department Industrial Engineering (X) |
Examines the basic concepts and methods of industrial engineering through team-based hands-on activities. Explores the profession of industrial engineering. Discusses resources available to Industrial Engineering students at the University of Washington. Offered: Sp.
Score: 10.364441 Details | Listing | Web page
Basics of industrial cost analysis and accounting. Application of interest computations to engineering decision making. Analysis of engineering alternatives based on use of interest computations, valuations, depreciation, and cost estimates. Offered: ASp.
Score: 10.364441 Details | Listing | Web page
Application of probability theory and statistics to engineering problems, distribution theory and discussion of particular distributions of interest in engineering, statistical estimation and data analysis. Illustrative statistical applications may include quality control, linear regression, and analysis of engineering data sets. Prerequisite: either MATH 136 or MATH 307. Offered: AWSpS.
Score: 10.364441 Details | Listing | Web page
Engineering considerations of the abilities and limitations of the human aspect in the design of operational systems and components. Functional, psychological, physiological, and environmental considerations. Offered: Sp.
Score: 10.364441 Details | Listing | Web page
Concepts of system approach, system hierarchies, functional analysis, requirements, trade studies, and other concepts used to define and integrate complex engineering systems. Introduction to risk analysis and reliability, failure modes and effects analysis, writing specifications, and lean manufacturing. Offered: jointly with A A 470.
Score: 10.364441 Details | Listing | Web page
Concentrates on hands-on aspects of innovation and entrepreneurial enterprise development. Examines relationships between innovation, iterative prototyping, and marketing testing. Students identify market opportunities, create new technology-based products and services to satisfy customer needs, and construct and test prototypes. Prerequisite: IND E 250. Offered: jointly with M E 496.
Score: 10.364441 Details | Listing | Web page
Lecture and/or laboratory.
Score: 10.364441 Details | Listing | Web page
Score: 10.364441 Details | Listing | Web page
Maximization and minimization of functions of finitely many variables subject to constraints. Basic problem types and examples of applications; linear, convex, smooth, and nonsmooth programming. Optimality conditions. Saddlepoints and dual problems. Penalties, decomposition. Overview of computational approaches. Prerequisite: linear algebra and advanced calculus. Offered: jointly with AMATH 515/MATH 515.
Score: 10.364441 Details | Listing | Web page
Design and analysis of advanced manufacturing systems from a strategic as well as technological perspective. Focus on information generation, management, and coordination aspects of complex manufacturing organizations. Examination of system integration alternatives and consequences for relationships with customers and suppliers. Prerequisite: IND E 431 or equivalent. Offered: jointly with M E 505.
Score: 10.364441 Details | Listing | Web page
Introduces practical techniques for modeling, analyzing, and implementing real-time enterprise control systems in application area such as manufacturing, supply chain flow control, and logistics decision schemas. Uses basic mathematical tools supported with a symbolic algebra software tool. Requires basic computer skills. Offered: A.
Score: 10.364441 Details | Listing | Web page
Provides students with principles, designs, techniques and algorithms for synthesizing real-time control of enterprise processes, using hybrid systems theory. Application areas include supply chain flow control, logistics decision schemas, transportation systems, dynamic reconciliation procedures, minimum cost production, and maximum profit price/ordering strategies. Prerequisite: IND E 551, or permission of instructor. Offered: W.
Score: 10.364441 Details | Listing | Web page
Third course in a three-course sequence. Provides architecture, algorithms and procedures for designing and implementing enterprise control policies for automating and enhancing enterprise functionality. Emphasis on hybrid system theories. Prerequisite: IND E 552, or permission of instructor. Offered: Sp.
Score: 10.364441 Details | Listing | Web page
Develops skills in occupational health and safety hazard recognition in a variety of important northwest industries. Focuses on process understanding and hazard recognition skills during walk-through inspections of several local facilities, stressing a multidisciplinary approach. Offered: jointly with ENV H 564.
Score: 10.364441 Details | Listing | Web page
Basic principles of ergonomics in work environment applied to problems of worker and management. Topics include measurement of physical work capacity, problems of fatigue and heat stress, applied biomechanics, worker-machine interactions and communication, design of displays and controls. Prerequisite: basic human physiology or permission of instructor. Offered: jointly with ENV H 566/NSG 508; odd years; Sp.
Score: 10.364441 Details | Listing | Web page
Lectures and laboratories address human occupational biomechanical and physiological limits and measurement, analysis, and modeling techniques that are used by ergonomists for design of safe, healthful, and productive physical work. Prerequisite: IND E 566 or permission of instructor. Offered: jointly with ENV H 569; even years, Sp.
Score: 10.364441 Details | Listing | Web page
Credit/no credit only. Topics of current interest in industrial engineering. Prerequisite: graduate standing in Industrial Engineering or permission of instructor. Offered: A.
Score: 10.364441 Details | Listing | Web page
Credit/no credit only. Topics of current interest in industrial engineering. Prerequisite: graduate standing in Industrial Engineering or permission of instructor. Offered: W.
Score: 10.364441 Details | Listing | Web page
Credit/no credit only. Topics of current interest in industrial engineering. Prerequisite: graduate standing in Industrial Engineering or permission of instructor. Offered: Sp.
Score: 10.364441 Details | Listing | Web page
Includes systems engineering, project management, finance, economics, and seminars. Concludes with a team-based design project involving a large scale system. The project enables students to apply their modeling skills to a real-world problem and present their results to a panel comprised of practitioners, academics, and clients. Offered: jointly with A A 595.
Score: 10.364441 Details | Listing | Web page
Prerequisite: permission of supervisor.
Score: 10.364441 Details | Listing | Web page
Score: 10.364441 Details | Listing | Web page
Score: 10.364441 Details | Listing | Web page