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Strategic Decision Making in Modern Manufacturing introduces and explains the AMBIT (Advanced Manufacturing Business ImplemenTation) approach, which has been developed to bridge the gap between strategic management considerations and the operational effects of technology investment decisions on the manufacturing organisation, so that the likely impact of new manufacturing technology and/or programme implementations can be evaluated, anticipated and accurately predicted. The AMBIT approach focuses specifically on the non-financial aspects of such investment decisions and offers an approach that allows a manager, or more frequently a management team, to understand the impacts of a new technology or a new programme on the manufacturing organisation in terms of manufacturing performance.
Serving as a reference and guide to both practitioners and researchers involved in the planning, control, and management of advanced manufacturing systems, Advanced Manufacturing Systems: Strategic Management and Implementation offers information on a wide range of available methodologies and tools. The contents are organized into four parts: Global Strategic Issues; Evaluation, Selection, and Adoption of the Systems; Implementation Issues; and Control and Support. Theoretical and practical, analytical and empirical, this is a valuable resource for those interested in researching or implementing these systems into their organizations.
Decision Making in Manufacturing Environment Using Graph Theory and Fuzzy Multiple Attribute Decision Making Methods presents the concepts and details of applications of MADM methods. A range of methods are covered including Analytic Hierarchy Process (AHP), Technique for Order Preference by Similarity to Ideal Solution (TOPSIS), VIšekriterijumsko KOmpromisno Rangiranje (VIKOR), Data Envelopment Analysis (DEA), Preference Ranking METHod for Enrichment Evaluations (PROMETHEE), ELimination Et Choix Traduisant la Realité (ELECTRE), COmplex PRoportional ASsessment (COPRAS), Grey Relational Analysis (GRA), UTility Additive (UTA), and Ordered Weighted Averaging (OWA). The existing MADM methods are improved upon and three novel multiple attribute decision making methods for solving the decision making problems of the manufacturing environment are proposed. The concept of integrated weights is introduced in the proposed subjective and objective integrated weights (SOIW) method and the weighted Euclidean distance based approach (WEDBA) to consider both the decision maker’s subjective preferences as well as the distribution of the attributes data of the decision matrix. These methods, which use fuzzy logic to convert the qualitative attributes into the quantitative attributes, are supported by various real-world application examples. Also, computer codes for AHP, TOPSIS, DEA, PROMETHEE, ELECTRE, COPRAS, and SOIW methods are included. This comprehensive coverage makes Decision Making in Manufacturing Environment Using Graph Theory and Fuzzy Multiple Attribute Decision Making Methods a key reference for the designers, manufacturing engineers, practitioners, managers, institutes involved in both design and manufacturing related projects. It is also an ideal study resource for applied research workers, academicians, and students in mechanical and industrial engineering.
First published in 1998, this volume was designed to lead to an operational model of Advanced Manufacturing Technology (AMT) decision making which incorporated the mathematics of fuzzy set theory. The rapid advancement of robotics, automated technologies and software such as CAD and CAM have made such studies paramount. Here, analyses of a questionnaire survey and field study of major UK manufacturing companies together provide a simulating portrayal of AMT investment decision making and have been expanded upon with a model using fuzzy set theory.
Management of Research and Development Organizations Managing the Unmanageable R. K. Jain and H. C. Triandis Written by the manager of a large research and development organization and a leading behavioral scientist, this book explores some of the essential topics in R&D management while providing hands-on guidance for putting specific techniques to work. 1990 (0 471-50791-1) 268 pp. Managing Technology in the Decentralized Firm Albert H. Rubenstein Technology has traditionally advanced faster than our ability to manage it. Here is a book designed to assist the professional in furthering the corporate technology program through its effective management. Based on studies of over 200 decentralized firms spanning a period of thirty years, Managing Technology in the Decentralized Firm addresses crucial aspects of the research and development and innovation processes, and suggests how to make them pay off. 1989 (0 471-61024-0) 476 pp. Statistical Quality Control for Manufacturing Managers William S. Messina In today’s competitive environment, the responsibility of the manufacturing manager has expanded to include ownership of the quality of the products coming off the line. The author uses real-life business situations to demonstrate how a manager can incorporate statistical quality control (SQC) into virtually any manufacturing line. He also offers practical advice on techniques managers can use to improve quality, increase productivity, and enhance the competitive position of the line. 1987 (0 471-85774-2) 331 pp. Management of Technological Change Yassin Sankar Technology produces changes within the organization that must be considered for effective implementation of innovations. This book focuses on the dynamics of technological change, especially the human aspects. The author examines the impact of technological change on job design, work flow, job stress, the elements of corporate culture, the organizational system, the information technology of the organization, the leadership style and strategic premises, the organizational design, and the value systems of managers and the organization. 1991 (0 471-63147-7) 374 pp.
As one of the eighteen field-specific reports comprising the comprehensive scope of the strategic general report of the Chinese Academy of Sciences, this sub-report addresses long-range planning for developing science and technology in the field of advanced manufacturing technology. They each craft a roadmap for their sphere of development to 2050. In their entirety, the general and sub-group reports analyze the evolution and laws governing the development of science and technology, describe the decisive impact of science and technology on the modernization process, predict that the world is on the eve of an impending S&T revolution, and call for China to be fully prepared for this new round of S&T advancement. Based on the detailed study of the demands on S&T innovation in China’s modernization, the reports draw a framework for eight basic and strategic systems of socio-economic development with the support of science and technology, work out China’s S&T roadmaps for the relevant eight basic and strategic systems in line with China’s reality, further detail S&T initiatives of strategic importance to China’s modernization, and provide S&T decision-makers with comprehensive consultations for the development of S&T innovation consistent with China’s reality. Supported by illustrations and tables of data, the reports provide researchers, government officials and entrepreneurs with guidance concerning research directions, the planning process, and investment. Founded in 1949, the Chinese Academy of Sciences is the nation’s highest academic institution in natural sciences. Its major responsibilities are to conduct research in basic and technological sciences, to undertake nationwide integrated surveys on natural resources and ecological environment, to provide the country with scientific data and consultations for government’s decision-making, to undertake government-assigned projects with regard to key S&T problems in the process of socio-economic development, to initiate personnel training, and to promote China’s high-tech enterprises through its active engagement in these areas.
The book presents the basic principles of what manufacturing must do to support competitiveness in the market place. These are identified as the Manufacturing Deliverables of Quality, Delivery and Cost. Ways of achieving these are examined in light of challenging received wisdoms and suggesting new guiding principles. The contribution of a large selection of Advanced Manufacturing Technologies based to satisfying these requirements are examined and put into a strategic context. Implementation and change management issues are fully examined. Readers will find in it much to challenge old ways of thinking and much new material to inform deliberations of how manufacturing must develop to compete effectively in global markets.
This book shows how graph theory and matrix approach, and fuzzy multiple attribute decision making methods can be used in manufacturing. It proposes a methodology that will make decision making in the manufacturing environment structured and systematic. The book uses case studies to present the applications of decision making methods in real manufacturing situations.
Competence in investment analysis is now a basic requirement for most practicing managers, engineers, and financial analysts in order to avoid possible serious mistakes arising from flawed or inadequate knowledge of the discipline. Furthermore, individuals who make decisions based on technical economics stake their professional futures, in many cases, on the accuracy of such evaluations. The aim of this volume is to provide a balanced view of the essential components of economic and financial analysis including: 1. Strategic and design issues; 2. Principles of cost management systems and activity-based costing, and; 3. Tools for developing the financial measures of investment worth, with advanced topics and case studies in these three areas.This volume provides a refreshing insight into the various methods that engineers, managers, and financial analysts may need to consider to find good alternatives for the investment of scarce resources. Not only are new ventures presented, but also improvements within existing facilities that include process modification, product design, equipment replacement, and plant expansion/contraction.