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Contains 69 papers from the October 1995 workshop, highlighting research in robotics, computer-integrated manufacturing, and artificial intelligence and applications in manufacturing systems operations, manufacturing processes, concurrent engineering, object- oriented design, simulation, and fault detection. Specific topics include trajectory simulation and optimization for a fuzzy-controlled mobile robot, integrated CAD and CAPP, and a multi-agent model for job-shop scheduling. No index. Annotation copyrighted by Book News, Inc., Portland, OR
Modern manufacturing systems must be engineered as any other complex systems, especially in the context of their integration. The book first presents the all-embracing concept of the Extended Enterprise as way of inter-enterprise integration. It then focusses on Enterprise Engineering methods and tools to address intra-enterprise integration using a model-based approach. Business process modelling and re-engineering isssues are particularly discussed and tools presented. Formal specification and Petri net-based analysis methods for manufacturing systems complete the set of tools for Enterprise Engineering. Coordination and integration issues of manufacturing systems and their business processes are then covered and examples of integration platforms presented. Finally, standardization and pre-standardization issues related to enterprise modelling and integration conclude the book.
Advanced modeling techniques are a necessary tool in order to design and manage manufacturing systems effectively. This book contains a set of tutorial chapters on topics ranging from aggregate production planning to real time control, including predictive and reactive scheduling, flow management in assembly systems, simulation of robotic cells, design of manufacturing systems under uncertainty and a historical perspective on production management philosophies. The book will be of interest both to researchers and practitioners, including graduate students in Manufacturing Engineering and Operations Research.
The theme of this book is the development of partnerships between manufacturing companies, their suppliers and customers and the facilitating of these partnerships by information technology and telecommunications. In the 1980s the emphasis in manufacturing was on integration 'within the four walls' of the manufacturing plant. The main issues facing researchers and industrial practitioners at the time were CAD/CAM integration, integration of production planning and control systems, the development of sophisticated computer driven manufacturing, assembly and testing systems and their control through sophisticated shop floor control systems. Today the emphasis has moved towards supply chain management (integration of the supply chain through Electronic Data Interchange (EDI) and Just in Time (JIT) or Quick Response approaches) and customer driven manufacturing. This includes the integration of manufacturing and distribution/logistics planning and control systems. Consequently, success for manufacturing companies in the 1990s requires closer collaboration with customers, suppliers and distributors than in the past. Information Technology and the emergence of a powerful global information infrastructure enable manufacturing industries throughout Europe to develop collaborative partnership across the value chain. Successful collaboration is achieved by the sharing of information at all phases of the business cycle, across the supply chain and across national and international boundaries. The need to collaborate across the supply chain has particular consequences for small and medium sized manufacturing (SMEs) companies, many of whom are compared and subassembly suppliers to the larger companies. Indeed the collaboration between supplier SMEs and their large customers has, in many cases, gone beyond JIT supply of components based on orders delivered, processed and frequently paid for using EDI technology and now extends to joint design and engineering activity. Collaboration between manufacturing companies across the supply chain is therefore placing increasing pressure on the developers of the global information superhighway and on the developers of CAD and other engineering software to ensure compliance with emerging standards, such as STEP, in order to allow intercompany collaboration. These are the issues which form the background of this book. The book is aimed at those researchers and industrial practitioners interested in learning about recent progress in manufacturing systems research and application. Mature results emerging from the ESPRIT-IiM programme are presented. Readers: Manufacturing managers an engineers, Quality/process engineers, IT suppliers/vendors, Academic researchers, Technology transfer centres and Industrial associations.
This is the first book to focus on emerging technologies for distributed intelligent decision-making in process planning and dynamic scheduling. It has two sections: a review of several key areas of research, and an in-depth treatment of particular techniques. Each chapter addresses a specific problem domain and offers practical solutions to solve it. The book provides a better understanding of the present state and future trends of research in this area.
IMS'97, the fourth in the series of IFAC Workshops on Intelligent Manufacturing Systems, was held in Seoul, Korea, on July 21-23, 1997. It was sponsored by the IFAC Technical Committee on Advanced Manufacturing Technology and organized by the Engineering Research Center for Advance Control and Instrumentation at Seoul National University on behalf of the Institute of Control, Automation and Systems Engineers in Korea. Rapid progress in the area of modern manufacturing is probably most evident through the developments in intelligent manufacturing systems. The same fast advancements have made the objective of achieving a balanced technical program a challenging task. The International Program Committee (IPC) wanted the Workshop to include the most notable and recent results, but still to reflect the versatility of maturing IMS technologies. In the Workshop, the importance of intelligence in modern manufacturing has gained considerable recognition from engineers and researchers due to today's unforeseen manufacturing environment change. This Workshop focused on the issue "intelligent manufacturing," especially, with two intriguing keynote speeches, a special invited session on the worldwide IMS Project and two tutorial programs as well as the 64 papers from 16 countries worldwide. We do hope that this event has provided the excellent opportunity to identify the future trends as well as exchange and learn ideas and experiences in intelligent manufacturing.
This handbook focuses on a series of concepts, models and technologies which can be used to improve current practice in life cycle engineering in manufacturing companies around the world. Experts on the main issues relating to life cycle engineering have produced a superb collection of chapters. All the contributing authors are researchers and engineers in the fields of manufacturing paradigms, enterprise integration, product life cycle and technologies for life cycle engineering. Academics and researchers will find this book to be a valuable reference tool. The book illustrates those key factors that ensure successful enterprise and product life cycle integration. Due to the book being developed as a joint industry and university project, its approach should be helpful to both practising professionals and academics. An overview of life cycle engineering concepts, models, methodologies and practices that have been proved to significantly improve the integration and productivity of manufacturing companies have been clearly explained in this handbook. This book will be essential for engineers, designers, product support personnel dealing with enterprise engineering projects. It will also be of immense use to lecturers and senior lecturers working in the fields of enterprise integration, product development, concurrent engineering and integrated manufacturing systems.
The need exists in the private sector and government manufacturing sites to reduce product development time, production lead times, inventory, and non-value added activities. At the same time, there is increased pressure to improve manufacturing process yields, produc tion efficiency, and resource utilization. Much of the technology required to meet these needs already exists, but an integrated structure that can demonstrate the potential for the technology in a concurrent engineering context does not. This book provides a road map for building the integrated technology environment to evaluate existing products, manufacturing processes and system design tools. This book details innovative approaches that will significantly improve design/manufacturing technology development and deploy ment capabilities for civilian and defense applications. These approaches are integrated product, process, and system design (IPPSD) initiatives which will greatly enhance the manufacturing competitiveness of the economy. These approaches involve the use of simulation, modeling tools and computerized virtual workstations in conjunction with a design environment which allows a diverse group of researchers, manufacturers, and suppliers to work within a comprehensive network of shared knowledge. The IPPSD infrastructure consists of virtual workstations, servers and a suite of simulation, quantitative, computa tional, analytical, experimental and qualitative tools. Such an IPPSD infrastructure will permit effective and efficient predictions of complete product design, manufacturing proces design, and customer satisfac tion.
Manufacturing systems, regardless of their size, have to work with scarce resources in dynamic environments. Effective Resource Management in Manufacturing Systems aims to provide methods for achieving effective resource allocation and to solve related problems that occur daily and often generate cost overruns. This book will be bought by postgraduate students of business, engineering and computer science as well as researchers in these fields. It will also be of interest to practitioners in manufacturing systems and operations managers in industry.
Enterprise integration and enterprise engineering has become a focal point of discussions during the past few years with active contribution of many disciplines... The evolution from the concept of CAD/CAM, through CIM to the Integrated Enterprise is based on the assumption that the integrated enterprise can (and should) be engineered just as any complex system can.