This book is largely based on a 1998 forum where participants from across America discussed ways to improve the utilization of science and technology for economic growth over the next several decades. A steering committee of prominent Americans, co-chaired by SEMATECH Chairman William Spencer and former Pennsylvania Governor and U.S. Attorney General Dick Thornburgh, developed consensus recommendations from the forum input. Harnessing Science and Technology for America's Economic Future puts forward long-term goals for the nation and associated action items. It includes background papers and talks from the forum, covers the economics of science and technology-based growth, industry trends, the role of government, education, research universities, and the international context.
Although the United States is currently capitalizing on its investment in science and technology effectively, there remains much room for improvement. This volume identifies the ingredients for success in capitalizing on such investments to produce national benefits, assesses current U.S. performance, and identifies future challenges. The book cites specific examples and examines several cross-cutting issues. It explores the possibility that the national research portfolio is losing diversity as a result of less long-term research in critical fields such as networking and materials. It also examines the implications of imbalances in the supply of and demand for science and engineering talent in emerging interdisciplinary fields such as bioinformatics.
Although the United States is currently capitalizing on its investment in science and technology effectively, there remains much room for improvement. This volume identifies the ingredients for success in capitalizing on such investments to produce national benefits, assesses current U.S. performance, and identifies future challenges. The book cites specific examples and examines several cross-cutting issues. It explores the possibility that the national research portfolio is losing diversity as a result of less long-term research in critical fields such as networking and materials. It also examines the implications of imbalances in the supply of and demand for science and engineering talent in emerging interdisciplinary fields such as bioinformatics.
NASA Ames Research Center, in the heart of Silicon Valley, is embarking on a program to develop a science and technology park bringing together leading companies and universities to capitalize on Ames' exceptional mission and location. Other initiatives under consideration include the integration of SBIR grants with a planned on-site incubator, virtual collaboration, and possibly a new public venture capital program. The STEP Board was asked by the NASA Administrator to hold a one-day symposium to review these initiatives. This report includes commissioned research papers and a summary of the proceedings of the symposium organized in response to the NASA request.
Information and Communication Technology for Sustainable Development shows how ICT, as an enabler for all spheres of development, can help innovate business processes and operations, and provide faster integration of new technologies into business systems. Focused on sustainability, the book addresses strategic approaches to cope with a range of climatic, environmental, cyber-security threats and other global risks, and aims to promote prosperity and economic growth. Furthermore, it explores how the adoption of new technologies, and collective action based upon a strategic behavioral theory of new leadership, can be applied when responding to specific set of conditions that allow for the proposed strategies to cope with risks. Information technology and strategic planning complement each other to attain the sustainable development goals (SDGs). Risk management frameworks, business continuity systems, and strategic planning methodologies such as mechanism design theory, strategic adaptive cognition (SAC), and risk mechanism theory (RMT) are the fundamental components needed to have a universal approach embedded into the national development plans agenda. As technology no longer follows an orderly, linear path, but improves exponentially, developing a strategic approach to ICT implementation help world leaders in the difficult but inspiring task of making a sustainable world and consequently find solutions to achieve the SDGs and the desired growth pattern that must be sustained, inclusive and equitable. Features: Discusses for the first time the potential of ICT as a transformative power in finding solutions to climatic and economic issues. Illustrates comprehensive strategic planning for leaders to implement in both public and private organizations. Integrates standards and frameworks in the context of sustainable development along with the UN Sustainable Development Goals. Describes in detail how mechanism design, risk management, business continuity systems, a comprehensive strategic planning using SAC (Strategic Adaptive Cognition) and risk mechanism theory can be used to address environmental risks and attain sustainable development goals (SDGs). Explains eHealth as an adaptation strategy to address future changes in climate and impacts, and the links between mitigation and adaptation to ICTs.
"This set of books represents a detailed compendium of authoritative, research-based entries that define the contemporary state of knowledge on technology"--Provided by publisher.
Greenberg explores how scientific research is funded in the United States, including why the political process distributes the funds the way it does and how it can be corrupted by special interests in academia, business, and political machines.
Materials are the foundation and fabric of manufactured products. In fact, many leading commercial products and military systems could not exist without advanced materials and many of the new products critical to the nation's continued prosperity will come only through the development and commercialization of new materials. Thus, the field of materials science and engineering (MS&E) affects quality of life, industrial competitiveness, and the global environment. The United States leads the world in materials research and development, but does not have as impressive a record in the commercialization of new materials. This book explores the relationships among the producers and users of materials and examines the processes of innovationâ€"from the generation of knowledge to the ultimate integration of a material into a useful product. The authors recommend ways to accelerate the rate at which new ideas are integrated into finished products. Real-life case studies provide an accurate depiction of the processes that take materials and process innovations from the laboratory, to the factory floor, and ultimately to the consumer, drawing on experiences with three distinctive MS&E applicationsâ€"advanced aircraft turbines, automobiles, and computer chips and information-storage devices.
