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This book conducts a panoramic study on the history of China’s Science and Technology which focuses on the Medium and Long-Term Science and Technology Program (MLSTP). In general these Programs have a duration of 5-30 year. This book provides an epochal assessment of the project’s conceptual context over the past 60 years.. The author shows that the historical evolution and conceptual development of China’s MLSTP are the result of an amalgamation of political, economic and social factors within distinct contemporary contexts. As a national action plan, MLSTP has incorporated many of the factors that go beyond the intentional factors of science and technology. MLSTP is not only a macro vision and blueprint for scientific and technological development; it is also a political act of realizing the national will. While ensuring the MLSTP builds on its great achievements, the author also reflects upon its deficiencies and disadvantages in order to better promote the advancement of science and technology in China. This book comprehensively lays out the historical and theoretical dimensions. Based on a clear vision of historical constructivism the author has compiled the MLSTP philosophy of different eras into a conceptual framework for this era and used this framework to research and analyze the historical and conceptual evolution of MLSTP. Research on MLSTP is important for as enrichment of contemporary studies in the history of science and the science and technology policy. In 2010, more than 60 years after the establishment of the People’s Republic of China, the country had enacted 10 MLSTP programs. This book separates the development of the MLSTP into three different historical eras: the era of economic planning, the era of economic transformation and the new century. Each historical epoch corresponds to a different MLSTP philosophy concept, which enables us to study the conceptual evolution of MLSTP using historical research as our foundation.
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.
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 marine science. 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.
A great nation has a great dream; a great country has a great dream. China’s dream is to build a society of common prosperity and a world in which all people live together in peace and harmony. This book provides predictions up to 2030 regarding the future major developments and trends of both China and the world in general from a historical and worldwide perspective. This book spells out the dreams of all mankind in the pursuit of common prosperity. It also offers China’s vision and perspective to the world, as well as Chinese scholars’ perspective on and worldwide vision for the future.
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 space science. 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.
Recognizing that innovation is the key to international competitiveness in the 21st century, policymakers around the world are seeking more effective ways to translate scientific and technological knowledge into new products, processes, and businesses. They have initiated major programs, often with substantial funding, that are designed to attract, nurture, and support innovation and high-technology industries within their national economies. To help U.S. policymakers become more aware of these developments, a committee of the National Academies' Board on Science, Technology, and Economic Policy undertook a review of the goals, concept, structure, operation, funding levels, and evaluation efforts of significant innovation programs around the world. As a part of this effort, the committee identified Flanders, a region of Belgium with substantial autonomy, which is recognized for its comprehensive approach to innovation. Based on initial meetings in Washington and Brussels, and with the endorsement of Flanders Vice Minister-President Fientje Moerman, it was agreed to organize a conference that would review regional innovation policies in the context of the policies and programs of the Flanders government, and their interaction with those of the European Union. This book provides a summary of that symposium.
Rising from a position of relative poverty in 1980, China is now the world's second-largest economy and a leader in many fields of innovation. Understanding China's new status as a technologically advanced world power and the means by which it has reached that position will be critical to policy-makers and business leaders in the years ahead. The Oxford Handbook of China Innovation provides a contemporary and authoritative view of the role of innovation in China's extraordinary emergence. The Handbook brings together over sixty experts from universities and research institutions worldwide to describe and analyze this phenomenon with criticism, policy discussion, and views about further development. The volume focuses on the microeconomic factors in China's growth and the way in which the steady drive for innovation has been a critical force. Chapters cover a wide scope of topics including China's development policies, the place of innovation in national priorities, the components of the national innovation system, and the resources required for their effective deployment. The issue of foreign influence is also addressed, including the evolution of policy towards inward foreign direct investment and knowledge transfer and China's goals for outward foreign direct investment. As China emerges as a contender for global leadership, the Handbook provides a data-driven, accessible, and comprehensive foundation to understand and predict the challenges ahead.
This book describes the status quo of space science in China, details the scientific questions to be addressed by the Chinese space science community in 2016-2030, and proposes key strategic goals, space science programs and missions, the roadmap and implementation approaches. Further, it explores the supporting technologies needed and provides an outlook of space science beyond the year 2030. “Taikong” means “outer space” in Chinese, and space science is one of the most important areas China plans to develop in the near future. This book is authored by Ji Wu, a leader of China's space science program, together with National Space Science Center, Chinese Academy of Sciences, a leading institute responsible for planning and managing most of China’s space science missions. It also embodies the viewpoints shared by many space scientists and experts on future space science development. Through this book, general readers and researchers alike will gain essential insights into the current developments and future prospects of space science in China. Government decision-makers will also find the book a useful reference for strategies and planning in the field of space science.