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Science diplomacy and policy can support collaborative national and international science for advancing knowledge with societal impact in fields such as climate, space, medicine, and the environment., Scientific advances made possible by the basic and applied research carried out by government agencies, universities, and nongovernmental organizations create opportunities and challenges with growing impact on policy decisions. Developing structures that produce the best science information to policy makers is becoming more critical in an ever-changing world. This three-volume set presented by prominent figures from the disciplines of science, engineering, technology, and diplomacy includes their perspectives on potential solutions to opportunities 21st-century scientists, engineers, and diplomats face in the future: To shed light and interface science, technology, and engineering with the realm of policy; To provide a vision for the future by identifying obstacles and opportunities while focusing on several key issues.
This book examines in depth science diplomacy, a particular field of international relations, in which the interests of science and those of foreign policy intersect. Building on a wealth of examples drawn from history and contemporary international relations, it analyzes and discusses the links between the world of scientists and that of diplomats. Written by a professor of economics and former Embassy counselor for science and technology, the book sets out to answer the following questions: Can science issues affect diplomatic relations between countries? Is international scientific cooperation a factor for peace? Are researchers good ambassadors for their countries? Is scientific influence a particular form of cultural influence on the world stage? Do diplomats really listen to what experts say when negotiating on the future of the planet? Is the independence of the scientist threatened by science diplomacy? What is a scientific attaché for?
Science diplomacy and policy can support collaborative national and international science for advancing knowledge with societal impact in fields such as climate, space, medicine, and the environment., Scientific advances made possible by the basic and applied research carried out by government agencies, universities, and nongovernmental organizations create opportunities and challenges with growing impact on policy decisions. Developing structures that produce the best science information to policy makers is becoming more critical in an ever-changing world. This three-volume set presented by prominent figures from the disciplines of science, engineering, technology, and diplomacy includes their perspectives on potential solutions to opportunities 21st-century scientists, engineers, and diplomats face in the future: To shed light and interface science, technology, and engineering with the realm of policy; To provide a vision for the future by identifying obstacles and opportunities while focusing on several key issues.
During the early decades of the Cold War, the People's Republic of China remained outside much of mainstream international science. Nevertheless, Chinese scientists found alternative channels through which to communicate and interact with counterparts across the world, beyond simple East/West divides. By examining the international activities of elite Chinese scientists, Gordon Barrett demonstrates that these activities were deeply embedded in the Chinese Communist Party's wider efforts to win hearts and minds from the 1940s to the 1970s. Using a wide range of archival material, including declassified documents from China's Ministry of Foreign Affairs Archive, Barrett provides fresh insights into the relationship between science and foreign relations in the People's Republic of China.
As modern foreign policy and international relations encompass more and more scientific issues, we are moving towards a new type of diplomacy, known as “Science Diplomacy”. Will this new diplomacy of the 21st century prove to be more effective than past diplomacy for the big issues facing the world, such as climate change, food and water insecurity, diminishing biodiversity, pandemic disease, public health, genomics or environmental collapse, mineral exploitation, health and international scientific endeavours such as those in the space and the Antarctic?Providing a new area of academic focus that has only gathered momentum in the last few years, this book considers these questions by bringing together a distinguished team of international specialists to look at various facets of how diplomacy and science are influenced by each other.The book not only dissects the ways that politics, science and diplomacy have become intertwined, but also highlights how the world's seemingly most intractable problems can be tackled with international collaboration and diplomacy that is rooted in science, and driven by technology. It, therefore, challenges the conventional wisdom concerning the juxtaposition of science and the world of diplomacy.
Diplomacy for the 21st Century recommends steps that the Department of State should embrace to take full advantage of the leading science and technology (S&T) capabilities of the United States. These capabilities provide the department with many opportunities to promote a variety of the interests of the United States and its allies in a rapidly changing world wherein S&T are important drivers of economic development at home and abroad and help ensure international security. This report assesses and makes recommendations concerning the changing environment for the conduct of diplomacy in the years ahead, with a focus on the role of S&T in the development and implementation of U.S. policies and programs. According to this report, prompt steps by the department's leadership are essential to ensure adequate comprehension of the importance of S&T-related developments throughout the world and to incorporate this understanding within the nation's foreign policy for the 21st century. This report also urges the adoption by the department of a broader whole-of-society approach in carrying out its responsibilities at home and abroad - extending beyond traditional interagency coordination and the narrow band of current external partners to include foundations, universities, research centers, and other groups who are extending their international reach.
This book provides a science diplomacy outlook as a new governance tool in international cooperation. It elaborates on India's current S&T collaboration with Afghanistan, Bangladesh, Bhutan, Maldives, Myanmar, Nepal, Pakistan, Sri Lanka, and science policy and science diplomacy in India. The book introduces concepts and contours of science diplomacy with international examples. It presents insights into international governance models, mega-science projects, and science diplomacy's role in addressing global climate change and sustainable development challenges. The book is a valuable reference to spark breakthroughs in India’s science diplomacy with its neighbouring countries for scientists, diplomats, policymakers, government, and non-government institutions interested in science and diplomacy.
Science diplomacy and policy can support collaborative national and international science for advancing knowledge with societal impact in fields such as climate, space, medicine, and the environment., Scientific advances made possible by the basic and applied research carried out by government agencies, universities, and nongovernmental organizations create opportunities and challenges with growing impact on policy decisions. Developing structures that produce the best science information to policy makers is becoming more critical in an ever-changing world. This three-volume set presented by prominent figures from the disciplines of science, engineering, technology, and diplomacy includes their perspectives on potential solutions to opportunities 21st-century scientists, engineers, and diplomats face in the future: To shed light and interface science, technology, and engineering with the realm of policy; To provide a vision for the future by identifying obstacles and opportunities while focusing on several key issues.
Over the past two decades, extensive research has been conducted on the application of fiber-optic sensors (FOSs) in structural health monitoring (SHM). In Volume 1 of this book a long-gauge sensing technique for incorporating a proposed areawise sensing, developed by the authors, was introduced. High precision and good durability of the long-gauge sensors were also demonstrated via technical improvements that further enable the applications of optical fiber sensors and carbon fiber sensors. In Volume 2, based on the merits of the long-gauge sensors, the methods that have been developed for processing areawise distributed monitoring data for structural identification are introduced. A discussion follows on how those methods are capable of performing a rich recognition of local and global structural parameters including structural deflections, dynamic characteristics, damages, and loads. Also presented is a three-level method of structural performance evaluation that utilizes monitoring data and identified results.
Structural health monitoring (SHM) can be characterized as the integration of sensing and intelligence to enable the potential damage to be monitored, analyzed, localized, and predicted in real time and in a nondestructive manner. Over the past two decades, extensive research has demonstrated that fiber-optic sensors (FOSs) are well suited for SHM sensing requirements in infrastructure systems. In this book, a brief overview of SHM and the application of FOS are presented. The book focuses on advanced techniques that utilize fiber-optic long-gauge sensing and overcome the limitations of traditional sensing and fulfill the requirements of infrastructure systems. The long-gauge FOSs have the merit of revealing both micro- and macrolevel information. Subsequently, a new approach, areawise distributed monitoring, is thoroughly discussed and its superior performance in SHM demonstrated. Finally, the application of areawise distributed monitoring, combined with the aforementioned long-gauge sensing technique, is presented for groups and networks of complex infrastructure systems.