This book outlines a number of different perspectives on the relationship between science, technology, and innovation in emerging economies. In it, the authors explore the aforementioned relationship as a pillar of economic development, driving growth in emerging economies. Employing a collaborative and interdisciplinary approach, the authors work to determine the main related factors and outcomes of the relationship between science, technology, and innovation, ultimately seeking to guide public policies to enhance the welfare of the population of an emerging economy.
Managing technological innovations and related policy and strategy issues have been a central focus of the new millennium. This book series presents an interdisciplinary scholarship and dialogue on the management of innovation and technological change in a global context from a variety of perspectives, including strategic, managerial, behavioral, and policy issues. Papers selected in this volume have four prominent themes: the wide spread interests and the global application of the technological innovation; the practicality of the research on technological innovation implementation to foster success and financial growth; the socio-technical challenges behind innovation and creativity that might outweigh the benefits; and the new principles/practices/perspectives on our understanding of the technological innovation. Contributed by prominent scholars and practitioners from around the world in innovation, management and policy area, this book will become a very useful read for anyone who is interested in learning the most contemporary perspectives on the subject.
Technology refers to any set of standardised procedures for transforming raw materials into finished products. Innovation consists of any change in technology which has tangible and lasting effect on human practices, whether or not it provides utilitarian advantages. Prehistoric societies were never static, but the tempo of innovation occasionally increased to the point that we can refer to transformation taking place. Prehistorians must therefore identify factors promoting or hindering innovation.This volume stems from an international workshop, organised by the Collaborative Research Centre 1266 'Scales of Transformation' at Kiel University in November 2017. The meeting challenged its participants to detect and explain technological change in the past and its role in transformation processes, using archaeological and ethnographic case studies. The papers draw mainly on examples from prehistoric Europe, but case-studies from Iran, the Indus Valley, and contemporary central America are also included. The authors adopt several perspectives, including cultural-historical, economic, environmental, demographic, functional, and agent-based approaches.These case studies often rely on interdisciplinary research, whereby field archaeology, archaeometric analysis, experimental archaeology and ethnographic research are used together to observe and explain innovations and changes in the artisan's repertoire. The results demonstrate that interdisciplinary research is becoming essential to understanding transformation phenomena in prehistoric archaeology, superseding typo-chronological description and comparison.This book is a scholarly publication aimed at academic researchers, particularly archaeologists and archaeological scientists working on ceramics, osseous and metal artifacts.
Discovery, Innovation, and Risk presents brief descriptions of selected scientific principles in the context of interesting technological examples to illustrate the complex interplay among science, engineering, and society.
This volume examines the role of scientific and technical information in the innovation process. The authors are primarily concerned with federally supported scientific and technical information which can be used to improve technology development for nondefense purposes--and thus help improve the international economic competitiveness of the United States. As the authors note at the outset, the federal government already makes a substantial investment in creating scientific and technical information. Their study is designed to first evaluate the ways in which this investment can be better used to improve our innovation capacity and then to assess the policy implications for the federal government and private sector R&D firms. Divided into three principal parts, the book begins by discussing the relationship between information and innovation, with particular emphasis on the use of information in the private sector. Part II characterizes existing federal policy related to information, technology transfer, and innovation and examines whether federally supported R&D is responsive to the needs of technological development and economic competitiveness. The final section addresses federal strategies to improve the use of federal R&D in these areas. Throughout, the authors pay special attention to issues surrounding the relationships between information providers and users. An important contribution to the ongoing debate on U.S. competitiveness abroad, this book offers important new insights into the ways in which government policy might be redesigned to help foster higher levels of technological innovation among U.S. firms.
China is in the midst of transitioning from a manufacturing-based economy to one driven by innovation and knowledge. This up-to-date analysis evaluates China's state-led approach to science and technology, and its successes and failures. In recent decades, China has seen huge investments in high-tech science parks, a surge in home-grown top-ranked global companies, and a significant increase in scientific publications and patents. Helped by state policies and a flexible business culture, the country has been able to leapfrog its way to a more globally competitive position. However, the authors argue that this approach might not yield the same level of progress going forward if China does not address serious institutional, organizational, and cultural obstacles. While not impossible, this task may well prove to be more difficult for the Chinese Communist Party than the challenges that China has faced in the past.
The OECD Science, Technology and Innovation Outlook 2018 is the twelfth edition in a series that biennially reviews key trends in science, technology and innovation (STI) policy in OECD countries and a number of major partner economies. The 14 chapters within this edition look at a range of ...
This volume explores the governance and management of science, technology, and innovation (STI) in relation to innovation policy and governance systems, highlighting its goal, challenges, and opportunities. Divided into two sections, it addresses the role of governments in promoting innovation in Latin-American contexts as well as barriers and opportunities for STI governance in the region. The chapters tackle the role of institutions, innovation funding, technological trajectories, regional innovation policies, innovation ecosystems, universities, knowledge appropriation, and markets. Researchers and scholars will find an opportunity to grasp a better understanding of innovation policies in emerging economies. This interdisciplinary work presents original research on science, technology and innovation policy and governance studies in an understudied region.
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.
