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Operations Research: 1934-1941," 35, 1, 143-152; "British The goal of the Encyclopedia of Operations Research and Operational Research in World War II," 35, 3, 453-470; Management Science is to provide to decision makers and "U. S. Operations Research in World War II," 35, 6, 910-925; problem solvers in business, industry, government and and the 1984 article by Harold Lardner that appeared in academia a comprehensive overview of the wide range of Operations Research: "The Origin of Operational Research," ideas, methodologies, and synergistic forces that combine to 32, 2, 465-475. form the preeminent decision-aiding fields of operations re search and management science (OR/MS). To this end, we The Encyclopedia contains no entries that define the fields enlisted a distinguished international group of academics of operations research and management science. OR and MS and practitioners to contribute articles on subjects for are often equated to one another. If one defines them by the which they are renowned. methodologies they employ, the equation would probably The editors, working with the Encyclopedia's Editorial stand inspection. If one defines them by their historical Advisory Board, surveyed and divided OR/MS into specific developments and the classes of problems they encompass, topics that collectively encompass the foundations, applica the equation becomes fuzzy. The formalism OR grew out of tions, and emerging elements of this ever-changing field. We the operational problems of the British and U. s. military also wanted to establish the close associations that OR/MS efforts in World War II.
Operations Research (OR) began as an interdisciplinary activity to solve complex military problems during World War II. Utilizing principles from mathematics, engineering, business, computer science, economics, and statistics, OR has developed into a full fledged academic discipline with practical application in business, industry, government and m
"This book examines related research in decision, management, and other behavioral sciences in order to exchange and collaborate on information among business, industry, and government, providing innovative theories and practices in operations research"--Provided by publisher.
Due to its societal and economic relevance, Project Management (PM) has become an important discipline and a concept critical to modern organizations, public and private. PM as an academic discipline is discussed both in Management Science and in Operations Research. Management Science tends to focus on quantitative tools and the soft skills necessary to manage projects successfully. Operations Research gives the essential scientific contribution to the success of project management through the development of models and algorithms. In Management Science, Operations Research and Project Management, José Ramón San Cristóbal Mateo fills the gap between scientific research and the practical application of that research. Project managers need formal training in decision-making but sometimes, they do not have an in-depth knowledge of Operations Research or they lack the necessary theoretical background. This book, with its focus on the quantitative models of Operations Research and Management Science applied to Project Management, provides project managers with the tools and methods necessary to manage projects successfully. Project managers operate in a complex global environment, in which numerous factors need to be considered, such as minimizing total project costs, meeting contracted dates, and ensuring that activities achieve certain quality levels. The focus here on the application of quantitative models of Operations Research and Management Science applied to Project Management provides them with the tools and methods necessary to make sound decisions.
Project management is a system originally developed within the construction industry for controlling schedules, costs, and specifications of large multitask projects. In recent years, manufacturers have discovered that project management's time-tested techniques dovetail neatly with the current thinking on quality control and management in a highly competitive global marketplace. The system has been increasingly recognized for its suitability in the manufacturing process and is now applied in virtually every area of production. One of the foremost proponents of this trend is Adedeji Badiru, an internationally recognized authority on project management, whose books have helped thousands of companies adapt the system to their particular needs. This completely revised Second Edition of Badiru's breakthrough publication, Project Management in Manufacturing and High Technology Operations, focuses on the dramatic increase in the use of high-tech machinery in industrial operations, and seamlessly integrates high-tech themes into a general discussion of project management. An introductory chapter on manufacturing analysis investigates how the latest concepts and techniques of project management are applied to manufacturing. The main body of the book offers a wealth of new material, including discussions of learning curve analysis, basic models for forecasting and inventory control, economic analysis of manufacturing, techniques for data analysis, and the application of expert systems. The chapter on computer applications in project management is completely revised and updated to reflect the enormous strides taken in this area in recent years. This book presents an up-to-date, practical approach to project management in manufacturing. Written by a pioneer in the application of project management to the manufacturing industries, this revised and expanded Second Edition of Project Management in Manufacturing and High Technology Operations reflects the increased use of high-tech machinery in industrial operations and the trends of recent years to apply project management methods to every phase of production. Complete with numerous illustrations, as well as exercises to wrap up each chapter, this Second Edition features: An emphasis on practical examples, including many new case studies, and a full chapter on the lessons learned from the space shuttle Challenger disaster Many new project management concepts and techniques that focus on manufacturing but can be applied to any project A new chapter on manufacturing systems analysis that provides the backdrop for the project analysis that takes place throughout the book Expanded discussions of the latest quantitative and managerial approaches, including learning curve analysis, basic models for forecasting and inventory control, economic analysis of manufacturing, techniques for data analysis, and the application of expert systems A strong international perspective, useful for multinational companies and for academic purposes This book equips engineers and managers with the tools to effectively manage all aspects of a project, including quality control, schedules, and expenses. Used as a text in engineering or business courses, it offers absorbing supplemental reading for students at the upper undergraduate and graduate levels. Professor Badiru has been widely praised for his incisive and highly relevant case studies. In this Second Edition, the case-study approach is expanded so that chapters typically include two real-world examples of the project management techniques or issues in question. In the final chapter, Badiru takes a close and painful look at a high-tech disaster, the explosion of the space shuttle Challenger. He offers rare and instructive insight into the devastating failure of a high-tech project—still poignant, despite the passage of time. Communicative throughout, this volume provides a solid, up-to-date reference for engineers and managers in manufacturing, as well as for consultants and administrators in related fields. Professor Badiru's proven reputation for providing interesting lecture material also makes Project Management in Manufacturing and High Technology Operations especially useful as a technology management text in both engineering and business schools. Cover Design/Illustration: David Levy
Revenue management (RM) has emerged as one of the most important new business practices in recent times. This book is the first comprehensive reference book to be published in the field of RM. It unifies the field, drawing from industry sources as well as relevant research from disparate disciplines, as well as documenting industry practices and implementation details. Successful hardcover version published in April 2004.
This book includes case studies that examine the application of operations research to improve or increase efficiency in industry and operational activities. This collection of “living case studies” is all based on the author’s 30-year career of consulting and advisory work. These true-to life industrial applications illustrate the research and development of solutions, as well as potential implementation and integration problems that may occur when adopting these methods into a business. Among the topics covered in the chapters include optimization in circuit board manufacturing, Decision Support System (DSS) for plant loading and dispatch planning, as well as development of important test procedures for tyre and pharma industry with shelf life constraints. In particular, the study on deckle optimization should be of great help to managers in paper industry and consultants for development of deckle optimization software. The application of operations research throughout the industry makes it an ideal guide for industrial executives, professionals and practitioners responsible for quality and productivity improvement.
The field of project management has developed over the past 40 years; however, the recent increase in computer power has greatly accelerated its theoretical and computational developments. Advanced Models for Project Management is an expository treatment of the recent developments in project modeling. These advances and their treatment in the book are as follows: Chapters 2 and 3 broaden the concept of precedence and the description of activities to produce a wide range of realistic representation of projects. Chapters 4 and 5 explore the stochastic study of project features through several analytical and numerical models - using simulation and risk analysis - which provide experimental and forecasting analyses. Chapter 6 examines the allocation of resources in complex situations and restrictions, and also studies the financial aspects of projects and optimization of financial elements. Chapter 7 assesses and evaluates projects within the framework of multi-criteria decision theory. Chapter 8 concludes with an analysis of new models based on synthetic indicators, helping the operations manager select the most convenient solutions. Hence, the book provides a number of original advances, including: an assessment of the complexity and hardness of a project network; a description of the network's morphology; a new approach to simulate project networks; development of models based on continuous variables to optimize project schedules; and the development of a three-dimension model (MACMODEL) to assess and to evaluate projects and a new synthetic indicator to support the process of scheduling. Finally, several software products are presented that help the project manager to use new tools such as RISKNET and MACMODEL.
Meant to complement rather than compete with the existing books on the subject, this book deals with the project performance and control phases of the project life cycle to present a detailed investigation of the project’s time performance measurement methods and risk analysis techniques in order to evaluate existing and newly developed methods in terms of their abilities to improve the corrective actions decision-making process during project tracking. As readers apply what is learned from the book, EVM practices will become even more effective in project management and cost engineering. Individual chapters look at simulation studies in forecast accuracy; schedule adherence; time sensitivity; activity sensitivity; and using top-down or bottom-up project tracking. Vanhoucke also offers an actual real-life case study, a tutorial on the use of ProTrack software (newly developed based on his research) in EVM, and conclusions on the relative effectiveness for each technique presented.
Project management can be broadly defined as the process of managing, allocating and timing resources to achieve given objectives in an efficient and expedient manner. The objectives of the book cover three areas: classification; procedures; and problems.