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This work defines "Agile Manufacturing" and dispels the mistaken beliefs that surround it. It analyzes how our traditions, conventions, values and beliefs, based on outdated ideas and philosophies, block the path to achieving "Agile Manufacturing". The book then maps the way forward.
Success is driven through collaboration. The field of Industrial and Systems Engineering has evolved as a major engineering field with interdisciplinary strength drawn from effective utilization, process improvement, optimization, design, and management of complex systems. It is a broad discipline that is important to nearly every attempt to solve problems facing the needs of society and the welfare of humanity. In order to carry this forward, successful collaborations are needed between industry, government, and academia. This book brings together an international group of distinguished practitioners and academics in manufacturing, healthcare, logistics, and energy sectors to examine what enables successful collaborations. The book is divided into two key parts: 1) partnerships, frameworks, and leadership; and 2) engineering applications and case studies. Part I highlights some of the ways partnerships emerge between those seeking to innovate and educate in industrial and systems engineering, some useful frameworks and methodologies, as well as some of the ideas and practices that undergird leadership in the profession. Part II provides case studies and applications to illustrate the power of the partnerships between academia and practice in industrial and systems engineering. Features Examines the success from multiple industries Provides frameworks for building teams and avoiding pitfalls Contains international perspectives of success Uses collaborative approaches from industry, government, and academia Includes real world case studies illustrating the enabling factors Offers engineering education and student-centric takeaways
The worlds developing countries will be experiencing massive increases in their urban populations over the 21st century. If managed intelligently and humanely, this growth can pave the way to sustainable development; otherwise, it will favour higher levels of poverty and environmental stress. The outcome depends on decisions being made now.The principal theme that runs through this volume is the need to transform urbanization into a positive force for development. Part I of this book reviews the demography of the urban transition, stressing the importance of benefi cial rural-urban connections and challenging commonly held misconceptions. Part II asks how urban housing, land and service provision can be improved in the face of rapid urban expansion, drawing lessons from experiences around the world. Part III analyses the challenges and opportunities that urbanization presents for improving living environments and reducing pressures on local and global ecosystems. These social and environmental challenges must be met in the context of fast-changing demographic circumstances; Part IV explores the range of opportunities that these transformations represent. These challenges and opportunities vary greatly across Africa, Asia and Latin America, as detailed in Part V.Published with IIED and UNFPA
This is an insightful collection by leading thinkers in both regulation and nanotechnology. It confronts new technological challenges with fresh regulatory insight. John Braithwaite, Australian National University Our growing ability to manufacture materials at the atomic scale will change our lives for the better, and tomorrow s nano-economy will outperform today s information age. Or so its proponents claim. Others maintain that a future dominated by commercial incentives risks a toxicological nightmare to rival the sorry global story of asbestos. This important volume is a timely contribution to increasing international calls to regulate nanotechnologies. By investigating the ways in which we could regulate these advances, and what we are learning from regulating existing technologies, such as biotechnologies and information technologies, the book debates the roles of government, business actors and the professions in protecting and enhancing the lives of citizens. In placing particular emphasis on the lessons of earlier technology advances, this book is unique in its broad consideration of the ethical, legal and social issues entwined within the development of the nanotechnology family. The multi-jurisdictional and interdisciplinary nature of the book will appeal to governments, academics, and civil societies across many parts of the world, while also remaining accessible to informed readers with an interest in nanotechnology and the policy and governance issues associated with technology development and regulation.
Critical Connections examines how trade, investment, migration, and other linkages among countries drive economic growth in the Europe and Central Asia region. The study breaks new ground by using a multidimensional approach that recognizes how each connectivity channel for growth is likely to be affected by the strength of other channels. This multidimensional view makes it easier to see that diversity in country connections and balance in all channels of connectivity are critical for achieving the greatest impact on growth. Europe and Central Asia provides a great laboratory for observing the role of multidimensional connectivity in action. The region’s 30 countries vary widely in the openness of their economies. Its collective experience shows how the various elements of cross-border connectivity work together to accelerate progrowth knowledge transfers, which in turn boost productivity through participation in today’s global value chains. A country’s economic partner might be just as important as the type of connection. Being well connected to highly connected countries can provide benefits beyond being well connected to comparatively isolated countries. Although greater connectivity can expose countries to external shocks, the report presents fact-based argument for policies that seek to build deeper and more diverse connections within the Europe and Central Asia region and globally. The message is timely. Europe’s once-confident march toward economic integration has slowed over the past decade, with voices in many countries questioning the wisdom of opening to the global economy. Critical Connections serves as a reminder to citizens and policy makers that greater regional and global connectivity has been a tremendous “convergence machine,†? raising living standards of lower-income countries toward those of wealthier middle- to high-income countries.
Throughout much of history, a critical driving force behind global economic development has been the response of society to the scarcity of key natural resources. Increasing scarcity raises the cost of exploiting existing natural resources and creates incentives in all economies to innovate and conserve more of these resources. However, economies have also responded to increasing scarcity by obtaining and developing more of these resources. Since the agricultural transition over 12,000 years ago, this exploitation of new 'frontiers' has often proved to be a pivotal human response to natural resource scarcity. This book provides a fascinating account of the contribution that natural resource exploitation has made to economic development in key eras of world history. This not only fills an important gap in the literature on economic history but also shows how we can draw lessons from these past epochs for attaining sustainable economic development in the world today.
Collection of selected, peer reviewed papers from the 4th International Conference on Frontiers of Manufacturing and Design Science (ICFMD 2013), September 10-12, 2013, Hong Kong, China. Volume is indexed by Thomson Reuters CPCI-S (WoS). The 660 papers are grouped as follows: Chapter 1: Materials Engineering, Processing of Materials and Chemical Technologies; Chapter 2: Research and Design of Machinery, Equipment and Technological Processes in Mechanical Engineering; Chapter 3: Mechatronics, Control and Automation of Manufacturing Processes; Chapter 4: Information and Communication Technologies, Processing of Data and Signal; Chapter 5: Materials and Technologies in Construction; Chapter 6: Product Design and Engineering Management; Chapter 7: Urban Planning, Transportation and Environment