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Science Sifting: Tools For Innovation In Science And Technology

Author: Janice M Dietert

Publisher: World Scientific

Published: 2013-05-20

Total Pages: 288

ISBN-13: 9814407925

Science Sifting is designed primarily as a textbook for students interested in research and as a general reference book for existing career scientists. The aim of this book is to help budding scientists broaden their capacities to access and use information from diverse sources to the benefit of their research careers.The book describes why the capacity to access and integrate both linear and nonlinear information has been an important historic feature of pivotal scientific breakthroughs. Yet, it is a process that our students are rarely, if ever, taught in universities. This book goes beyond simply describing the features of great scientific breakthroughs. It discusses the basis for accessing and using nonlinear information in the linear research context. It also provides a series of tools and exercises that can be used to enhance access to nonlinear information for application to research and other endeavors.Topics covered include focal points in scientific breakthroughs, the use of concepts maps in research, use of different vantage points, information as patterns, fractals for the scientist, memory storage and access points, and synchronicities. Young researchers need useful tools to help with a more holistic approach to their research careers. This book provides the useful tools to support flexibility and creativity across a long-term research career.Roald Hoffmann — Winner of the 1981 Nobel Prize in Chemistry — has contributed the to Science Sifting. More information on Professor Hoffmann can be found at .

The Science of Science Policy

Author: Julia I. Lane

Publisher: Stanford University Press

Published: 2011-03-18

Total Pages: 400

ISBN-13: 0804781605

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Basic scientific research and technological development have had an enormous impact on innovation, economic growth, and social well-being. Yet science policy debates have long been dominated by advocates for particular scientific fields or missions. In the absence of a deeper understanding of the changing framework in which innovation occurs, policymakers cannot predict how best to make and manage investments to exploit our most promising and important opportunities. Since 2005, a science of science policy has developed rapidly in response to policymakers' increased demands for better tools and the social sciences' capacity to provide them. The Science of Science Policy: A Handbook brings together some of the best and brightest minds working in science policy to explore the foundations of an evidence-based platform for the field. The contributions in this book provide an overview of the current state of the science of science policy from three angles: theoretical, empirical, and policy in practice. They offer perspectives from the broader social science, behavioral science, and policy communities on the fascinating challenges and prospects in this evolving arena. Drawing on domestic and international experiences, the text delivers insights about the critical questions that create a demand for a science of science policy.

Capturing Change in Science, Technology, and Innovation

Author: National Research Council

Publisher: National Academies Press

Published: 2014-08-25

Total Pages: 387

ISBN-13: 0309297478

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Since the 1950s, under congressional mandate, the U.S. National Science Foundation (NSF) - through its National Center for Science and Engineering Statistics (NCSES) and predecessor agencies - has produced regularly updated measures of research and development expenditures, employment and training in science and engineering, and other indicators of the state of U.S. science and technology. A more recent focus has been on measuring innovation in the corporate sector. NCSES collects its own data on science, technology, and innovation (STI) activities and also incorporates data from other agencies to produce indicators that are used for monitoring purposes - including comparisons among sectors, regions, and with other countries - and for identifying trends that may require policy attention and generate research needs. NCSES also provides extensive tabulations and microdata files for in-depth analysis. Capturing Change in Science, Technology, and Innovation assesses and provides recommendations regarding the need for revised, refocused, and newly developed indicators of STI activities that would enable NCSES to respond to changing policy concerns. This report also identifies and assesses both existing and potential data resources and tools that NCSES could exploit to further develop its indicators program. Finally, the report considers strategic pathways for NCSES to move forward with an improved STI indicators program. The recommendations offered in Capturing Change in Science, Technology, and Innovation are intended to serve as the basis for a strategic program of work that will enhance NCSES's ability to produce indicators that capture change in science, technology, and innovation to inform policy and optimally meet the needs of its user community.

Improving Measures of Science, Technology, and Innovation

Author: National Research Council

Publisher: National Academies Press

Published: 2012-02-17

Total Pages: 77

ISBN-13: 0309253926

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The National Center for Science and Engineering Statistics (NCSES), at the U.S. National Foundation, is 1 of 14 major statistical agencies in the federal government, of which at least 5 collect relevant information on science, technology, and innovation activities in the United States and abroad. The America COMPETES Reauthorization Act of 2010 expanded and codified NCSES's role as a U.S. federal statistical agency. Important aspects of the agency's mandate include collection, acquisition, analysis, and reporting and dissemination of data on research and development trends, on U.S. competitiveness in science, technology, and research and development, and on the condition and progress of U.S. science, technology, engineering, and mathematics (STEM) education. Improving Measures of Science, Technology and Innovation: Interim Report examines the status of the NCSES's science, technology, and innovation (STI) indicators. This report assesses and provides recommendations regarding the need for revised, refocused, and newly developed indicators designed to better reflect fundamental and rapid changes that are reshaping global science, technology and innovation systems. The book also determines the international scope of STI indicators and the need for developing new indicators that measure developments in innovative activities in the United States and abroad, and Offers foresight on the types of data, metrics and indicators that will be particularly influential in evidentiary policy decision-making for years to come. In carrying out its charge, the authoring panel undertook a broad and comprehensive review of STI indicators from different countries, including Japan, China, India and several countries in Europe, Latin America and Africa. Improving Measures of Science, Technology, and Innovation makes recommendations for near-term action by NCSES along two dimensions: (1) development of new policy-relevant indicators that are based on NCSES survey data or on data collections at other statistical agencies; and (2) exploration of new data extraction and management tools for generating statistics, using automated methods of harvesting unstructured or scientometric data and data derived from administrative records.

Studies on Science and the Innovation Process

Author:

Publisher:

Published:

Total Pages:

ISBN-13: 981446788X

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Studies on Science and the Innovation Process

Author: Nathan Rosenberg

Publisher: World Scientific Publishing Company Incorporated

Published: 2010

Total Pages: 412

ISBN-13: 9789814273589

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Science and technology have become increasingly intertwined in the twentieth century. However, little attention has been paid to the forces that have brought about this phenomena. Indeed, many writers have taken it for granted that causality always runs from science to technology. In this ground-breaking book, Rosenberg's research suggests that history and empirical evidence lead to a reality that is far more complex and interesting. Here, Rosenberg's papers cover a wide range of topics, especially those connected with the innovative process, including electric power, electronics, medicine, chemistry, engineering disciplines, scientific instrumentation, industrial research, and universities considered as economic institutions.

Internet Accessible Remote Laboratories: Scalable E-Learning Tools for Engineering and Science Disciplines

Author: Azad, Abul K.M.

Publisher: IGI Global

Published: 2011-11-30

Total Pages: 676

ISBN-13: 1613501870

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"This book presents current developments in the multidisciplinary creation of Internet accessible remote laboratories, offering perspectives on teaching with online laboratories, pedagogical design, system architectures for remote laboratories, future trends, and policy issues in the use of remote laboratories"--Provided by publisher.

Managing Technological Innovation

Author: Tugrul U. Daim

Publisher: World Scientific Publishing Company

Published: 2017

Total Pages: 400

ISBN-13: 9789813207264

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Managing Technological Innovation provides a set of tools and case studies for R&D managers to effectively manage technological innovations from the identifying of technological needs to the launch of the product. The book is divided into five parts. Part 1 addresses the policies and strategies necessary to provide direction to R&D organizations in the management of technological innovation. Part 2 focuses on technological assessment; presenting the methods available to better matching of technologies to strategic directions, supported with case studies to illustrate the evaluation methods. Part 3 covers the development and building of technological portfolios with new products, as well as mitigation strategies. Part 4 focus on the execution phase of built portfolios the development of new products. And finally, Part 5 rounds up with a study on the factors which impact the diffusion of technological innovations into the market place.

Improving Measures of Science, Technology, and Innovation

Author: National Research Council (U.S.). Committee on National Statistics

Publisher:

Published: 2012-01-01

Total Pages: 61

ISBN-13: 9786613527394

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The Science of Science and Innovation Policy

Author: Committee on Science and Technology

Publisher:

Published: 2010-09-23

Total Pages: 74

ISBN-13: 9781477522523

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During his keynote address in 2005 at the American Association for the Advancement of Science's Science and Technology Policy Forum, Dr. John Marburger, then science advisor to President Bush, called for the establishment of a "science of science policy." The "science of science policy" (SoSP) as described by Dr. Marburger and others includes the development of scientific theories, analytical tools, and rigorous datasets that will assist policymakers in science policy decisions. The SoSP is an interdisciplinary field that draws together researchers from economics, political science, and the social and behavioral sciences to improve our understanding of the science and engineering enterprise, including the process of innovation in an effort to establish a more quantitative approach to science and technology policy decisions.