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A study which details aspects of material flow in manufacturing systems. This text focuses on the effects of unreliability, variability, and finite storage space on system performance; and control-theoretic methods for operating advanced manufacturing systems to obtain high performance.
This second edition of the classic textbook has been written to provide a completely up-to-date text for students of mechanical, industrial, manufacturing and production engineering, and is an indispensable reference for professional industrial engineers and managers. In his outstanding book, Professor Katsundo Hitomi integrates three key themes into the text: * manufacturing technology * production management * industrial economics Manufacturing technology is concerned with the flow of materials from the acquisition of raw materials, through conversion in the workshop to the shipping of finished goods to the customer. Production management deals with the flow of information, by which the flow of materials is managed efficiently, through planning and control techniques. Industrial economics focuses on the flow of production costs, aiming to minimise these to facilitate competitive pricing. Professor Hitomi argues that the fundamental purpose of manufacturing is to create tangible goods, and it has a tradition dating back to the prehistoric toolmakers. The fundamental importance of manufacturing is that it facilitates basic existence, it creates wealth, and it contributes to human happiness - manufacturing matters. Nowadays we regard manufacturing as operating in these other contexts, beyond the technological. It is in this unique synthesis that Professor Hitomi's study constitutes a new discipline: manufacturing systems engineering - a system that will promote manufacturing excellence. Key Features: * The classic textbook in manufacturing engineering * Fully revised edition providing a modern introduction to manufacturing technology, production managment and industrial economics * Includes review questions and problems for the student reader
Overviews manufacturing systems from the ground up, following the same concept as in the first edition. Delves into the fundamental building blocks of manufacturing systems: manufacturing processes and equipment. Discusses all topics from the viewpoint of four fundamental manufacturing attributes: cost, rate, flexibility and quality.
Production Systems Engineering (PSE) is an emerging branch of Engineering intended to uncover fundamental principles of production systems and utilize them for analysis, continuous improvement, and design. This volume is the first ever textbook devoted exclusively to PSE. It is intended for senior undergraduate and first year graduate students interested in manufacturing. The development is first principle-based rather than recipe-based. The only prerequisite is elementary Probability Theory; however, all necessary probability facts are reviewed in an introductory chapter. Using a system-theoretic approach, this textbook provides analytical solutions for the following problems: mathematical modeling of production systems, performance analysis, constrained improvability, bottleneck identification and elimination, lean buffer design, product quality, customer demand satisfaction, transient behavior, and system-theoretic properties. Numerous case studies are presented. In addition, the so-called PSE Toolbox, which implements the algorithms developed, is described. The volume includes numerous case studies and problems for homework assignment.
"Plastics manufacturing is a highly interdisciplinary endeavor requiring knowledge related to materials science, physics, engineering, and management. This book was written to educate and support plastics processing engineers, but is also highly useful to others involved with plastics manufacturing who are performing process development, research, and even machinery design"--Provided by publisher.
Software has become a decisive cost and time factor in regard to developing and establishing manufacturing systems and setting them into operation. In addition, software determines the availability, reliability as well as functionality of manufacturing units. Software Engineering for Manufacturing Systems considers the methods and procedures required to deal with problems in the software engineering of control technology for manufacturing systems. Significantly, the following topics are addressed: * definitions and requirements of software for control technology * system design, describing forms of control software * CASE tools for the generation of a code * configuration, adaption of standard software variants, and re-usability of software * and man-machine interface. It contains the selected proceedings of the International Conference on Software Engineering and Case Tools for Control Technology of Manufacturing Systems, sponsored by the IFIP and held in Germany, in March 1996.
Introduction to Manufacturing Systems is written for all college- and university-level manufacturing, industrial technology, engineering technology, industrial design, engineering, business management and other related disciplines where there is an interest in learning about manufacturing systems as a complete system. Even lay people will find this book useful in their quest to learn more about the field. Its simple and easy-to-understand language makes it particularly useful to all readers. The field of manufacturing is a world of its own which bears on almost all other disciplines. This book is not necessarily a “how to” material that teaches one how to manufacture a product, but rather an aid to help learners gain a more complete understanding of “what is in it” and “what happens in the field”. Thus, this book will provide more comprehensive information about manufacturing. It is intended to introduce every interested person to what manufacturing is, its diverse components, and the various activities and tasks that are undertaken in its many and diverse departments. It should serve as an introductory material to beginning college manufacturing and related majors. Over the years, I have learned that most of these beginners are ill equipped with key aspects of manufacturing when they arrive. This group also includes all technical- and business-minded individuals who enroll or train in trade, business, engineering, vocational and technical programs and institutions. This book is divided into 12 very distinctive chapters that are closely arranged to follow manufacturing activities as sequentially as possible, to help readers follow a rather continuous thread of activities generally undertaken in the industry. Its chapters cover various topics including different types, techniques or methods, and philosophies of manufacturing; manufacturing plants and facilities; manufacturing machines; tools and production tooling; manufacturing processes; manufacturing materials and material handling systems; measurement instruments; manufacturing personnel; manufactured products; and planning, implementing, controlling and improving manufacturing systems.
An information systems trailblazer in the domains of decision support and factory and supply chain synchronization, the second edition of Re-Engineering the Manufacturing System stays true to its title, once again bestowing uniquely straightforward instructions for designing, installing, and operating manufacturing information systems. This updated and expanded source takes care to clarify the often blurred concepts of synchronization and optimization and offers implementation advice from four discrete angles to yield better bottom-line results. It shows how to exploit an information system, rolling ERP system implementation into the TOC framework to promote profit materialization.
This text presents the practical application of queueing theory results for the design and analysis of manufacturing and production systems. This textbook makes accessible to undergraduates and beginning graduates many of the seemingly esoteric results of queueing theory. In an effort to apply queueing theory to practical problems, there has been considerable research over the previous few decades in developing reasonable approximations of queueing results. This text takes full advantage of these results and indicates how to apply queueing approximations for the analysis of manufacturing systems. Support is provided through the web site http://msma.tamu.edu. Students will have access to the answers of odd numbered problems and instructors will be provided with a full solutions manual, Excel files when needed for homework, and computer programs using Mathematica that can be used to solve homework and develop additional problems or term projects. In this second edition a separate appendix dealing with some of the basic event-driven simulation concepts has been added.
Responding to the demand by researchers and practitioners for a comprehensive reference, Handbook of Industrial and Systems Engineering offers full and easy access to a wide range of industrial and systems engineering tools and techniques in a concise format. Providing state of the art coverage from more than 40 contributing authors, many of whom a