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This conference proceedings explores how widespread diffusion and application of cleaner technologies can help countries reach their sustainable development goals.
This report is intended to provide a brief historical perspective of the evolution of the interacademy program during the past half-century, recognizing that many legacies of the Soviet era continue to influence government approaches in Moscow and Washington and to shape the attitudes of researchers toward bilateral cooperation in both countries (of special interest is the changing character of the program during the age of perestroika (restructuring) in the late 1980s in the Soviet Union); to describe in some detail the significant interacademy activities from late 1991, when the Soviet Union fragmented, to mid-2003; and to set forth lessons learned about the benefits and limitations of interacademy cooperation and to highlight approaches that have been successful in overcoming difficulties of implementation.
The global economy is characterized by increasing locational competition to attract the resources necessary to develop leading-edge technologies as drivers of regional and national growth. One means of facilitating such growth and improving national competitiveness is to improve the operation of the national innovation system. This involves national technology development and innovation programs designed to support research on new technologies, enhance the commercial return on national research, and facilitate the production of globally competitive products. Understanding the policies that other nations are pursuing to become more innovative and to what effect is essential to understanding how the nature and terms of economic competition are shifting. Building the 21st Century U.S.-China Cooperation on Science, Technology, and Innovation studies selected foreign innovation programs and comparing them with major U.S. programs. This analysis of Comparative Innovation Policy includes a review of the goals, concept, structure, operation, funding levels, and evaluation of foreign programs designed to advance the innovation capacity of national economies and enhance their international competitiveness. This analysis focuses on key areas of future growth, such as renewable energy, among others, to generate case-specific recommendations where appropriate.
India and the United States are the world's two largest democracies with distinguished scientific traditions and experts in a wide range of scientific-technical fields. Given these strengths and the ability to learn from one another, the U.S. National Academy of Sciences together with the National Institute for Advanced Studies in Bangalore, India, held a joint Indian-U.S. workshop to identify and examine potential areas for substantive scientific and technical cooperation that can support counterterrorism efforts through the Homeland Security Dialogue and through direct cooperation. India-United States Cooperation on Science and Technology for Countering Terrorism is the summary of that workshop. This report examines topics such as biological threats; protection of nuclear facilities; security (physical and cyber) for chemicals, chemical facilities and other critical infrastructure; and monitoring, surveillance, and emergency response. The report also identifies and examines promising areas for further Indian-U.S. cooperation.
In October 2007, the U.S. National Academies and the Iranian Institute for Advanced Studies in Basic Science organized the first of a series of planned U.S.-Iranian workshops on the topic "Science as a Gateway to Understanding." This new workshop series is a component of the broader effort of the National Academies to support bilateral workshops and exchange visits in a variety of fields with a number of Iranian institutions that began in 2000. This book includes papers that were presented at the workshop and summaries of the discussions that followed some of the presentations. At the conclusion of the workshop there was general agreement that the presentations on many aspects of science and scientific cooperation that have a bearing on mutual understanding were an important first step. Several participants underscored that the next workshop should emphasize how scientific cooperation can lead in concrete terms to improved understanding among both academic and political leaders from the two countries.
Cooperation in Research and Development provides an empirical and theoretical analysis of a distinct form of inter-firm collaboration in Research & Development (R&D): research joint ventures (RJVs). Of all types of cooperation, RJVs have received the most attention in both formal industrial organization and science and technology policy literature. The emerging theoretical economic literature on incentives of firms to join RJVs has not been followed by much empirical work. Cooperation in Research and Development attempts to fill the void caused by this lack of consistent data on the rate of RJV formation, RJV characteristics, and RJV member characteristics. Significant attention is paid to the role of RJVs in facilitating `virtual' firm diversification as necessary to pursue particular technological objectives. An effort is also made to blend the reported theoretical and empirical analyses with conceptual models of the process of technological innovation and models of industrial evolution in order to provide answers beyond the reach of the received economic theory. Cooperation in Research and Development should be of interest to academic economists, policy makers, and business representatives. The microeconomic issues the book deals with overlap significantly with the interests of decision makers both in government and business.
Research cooperation in a nation is a fundamental key to national competitiveness in technology that supports growth in a national economy. To fully understand why some nations are more successful in innovation than others, one must examine the structure and process of knowledge creation and use — the Science & Technology policy of a nation.National innovation requires progress both in Science & Technology, and also in economy. Research cooperation for innovation is necessary, since science, technology, and production are performed in different sectors of a nation. Universities conduct research science, and science discovers nature. Governments support most of the research in universities, and therefore are the principal sponsors of science. Industry develops most technology and commercializes technology into economically useful products/services. The structure and process of knowledge in a nation thus requires (1) creation of knowledge in science, (2) translation of science into technology, and (3) design of technology into commercialization of utility. At a national level, innovation is thus a complicated concept — proposing a need to identify the proper ways that government-university-industry can cooperate to advance knowledge and economically benefit from innovation. Special programs in Science & Technology policy that have proven beneficial in fostering research cooperation for national competitiveness will be covered in this book.Cooperative Innovation: Science & Technology Policy helps readers understand a practical science & technology policy for a nation. Its contents are particularly useful for government administrators of research, industrial research directors, university research directors, and students of science & technology policy.
An increase in global access to goods and knowledge is transforming world-class science and technology (S&T) by bringing it within the capability of an unprecedented number of global parties who must compete for resources, markets, and talent. In particular, globalization has facilitated the success of formal S&T plans in many developing countries, where traditional limitations can now be overcome through the accumulation and global trade of a wide variety of goods, skills, and knowledge. As a result, centers for technological research and development (R&D) are now globally dispersed, setting the stage for greater uncertainty in the political, economic, and security arenas. These changes will have a potentially enormous impact for the U.S. national security policy, which for the past half century was premised on U.S. economic and technological dominance. As the U.S. monopoly on talent and innovation wanes, arms export regulations and restrictions on visas for foreign S&T workers are becoming less useful as security strategies. The acute level of S&T competition among leading countries in the world today suggests that countries that fail to exploit new technologies or that lose the capability for proprietary use of their own new technologies will find their existing industries uncompetitive or obsolete. The increased access to information has transformed the 1950s' paradigm of "control and isolation" of information for innovation control into the current one of "engagement and partnerships" between innovators for innovation creation. Current and future strategies for S&T development need to be considered in light of these new realities. This book analyzes the S&T strategies of Japan, Brazil, Russia, India, China, and Singapore (JBRICS), six countries that have either undergone or are undergoing remarkable growth in their S&T capabilities for the purpose of identifying unique national features and how they are utilized in the evolving global S&T environment.
The successful conclusion of the US-EU Agreement on Science and Technology Cooperation offers the prospect of a new chapter in transatlantic cooperation. As with any international agreement in science and technology, the accord's full potential will be realized only if it can encourage mutually beneficial cooperation. With this in mind, responsible officials of the European Union (EU) and the U.S. government contacted the National Research Council's Board on Science, Technology, and Economic Policy (STEP) to discuss how this negotiating success might be publicized and productively exploited. It was agreed that the STEP Board should organize a conference to celebrate the accord, inform the U.S. and European research communities of the agreement, and explore specific opportunities for enhanced cooperation. At the same time, the conference would provide the occasion to review existing and evolving areas of transatlantic cooperation in science and technology from the perception of the United States, the European Commission, and the member states of the European Union.
America's position as the source of much of the world's global innovation has been the foundation of its economic vitality and military power in the post-war. No longer is U.S. pre-eminence assured as a place to turn laboratory discoveries into new commercial products, companies, industries, and high-paying jobs. As the pillars of the U.S. innovation system erode through wavering financial and policy support, the rest of the world is racing to improve its capacity to generate new technologies and products, attract and grow existing industries, and build positions in the high technology industries of tomorrow. Rising to the Challenge: U.S. Innovation Policy for Global Economy emphasizes the importance of sustaining global leadership in the commercialization of innovation which is vital to America's security, its role as a world power, and the welfare of its people. The second decade of the 21st century is witnessing the rise of a global competition that is based on innovative advantage. To this end, both advanced as well as emerging nations are developing and pursuing policies and programs that are in many cases less constrained by ideological limitations on the role of government and the concept of free market economics. The rapid transformation of the global innovation landscape presents tremendous challenges as well as important opportunities for the United States. This report argues that far more vigorous attention be paid to capturing the outputs of innovation - the commercial products, the industries, and particularly high-quality jobs to restore full employment. America's economic and national security future depends on our succeeding in this endeavor.