In this wide ranging exposition of the various economic theories of technological change, Stanislaw Gomulka relates them to rates of growth experienced by different economies in both the short and the long term. Analysis of countries as diverse as Japan, the Soviet Union and the United Kingdom demonstrates that there is an interdependence between technological change and the institutional and cultural characteristics of different countries, which can have a profound effect on their rates of growth. All of the major, relevant models are discussed, including those of Kuznets and Phelps, but throughout the emphasis is on the creation of a unified theoretical framework to help explain the impact of technological progress on both a micro and a macro scale.
Over the past few decades, US business and industry have been transformed by the advances and redundancies produced by the knowledge economy. The workplace has changed, and much of the work differs from that performed by previous generations. Can human capital accumulation in the United States keep pace with the evolving demands placed on it, and how can the workforce of tomorrow acquire the skills and competencies that are most in demand? Education, Skills, and Technical Change explores various facets of these questions and provides an overview of educational attainment in the United States and the channels through which labor force skills and education affect GDP growth. Contributors to this volume focus on a range of educational and training institutions and bring new data to bear on how we understand the role of college and vocational education and the size and nature of the skills gap. This work links a range of research areas—such as growth accounting, skill development, higher education, and immigration—and also examines how well students are being prepared for the current and future world of work.
Technology's contribution to economic growth and competitiveness has been the subject of vigorous debate in recent years. This book demonstrates the importance of a historical perspective in understanding the role of technological innovation in the economy. The authors examine key episodes and institutions in the development of the U.S. research system and in the development of the research systems of other industrial economies. They argue that the large potential contributions of economics to the understanding of technology and economic growth have been constrained by the narrow theoretical framework employed within neoclassical economies. A richer framework, they believe, will support a more fruitful dialogue among economists, policymakers, and managers on the organization of public and private institutions for innovation. David Mowery is Associate Professor of Business and Public Policy at the School of Business Administration, University of California, Berkeley. Nathan S. Rosenberg is Fairleigh Dickinson Professor of Economics at Stanford University. He is the author of Inside the Black Box: Technology and Economics (CUP, 1983).
Traditionally, economists have considered the accumulation of conventional inputs such as labour and capital to be the primary force behind economic growth. In the late-1990s however, many economists place technological progress at the centre of the growth process. This shift is due to theoretical developments that allow researchers to link microeconomic outcomes.
Growth in a Time of Change: Global and Country Perspectives on a New Agenda is the first of a two-book research project that addresses new issues and challenges for economic growth arising from ongoing significant change in the world economy, focusing especially on technological transformation. The project is a collaboration between the Brookings Institution and the Korea Development Institute. Part I of the book looks at key elements of change from a global perspective. It analyzes how technological change, shifts in investment, and demographic transition are affecting potential economic growth globally and across major groups of economies. The contributors explore possible scenarios for the global economy as the digital revolution drives rapid technological change, including impacts on growth, jobs, income distribution, trade balances, and capital flows. Technology is changing the global configuration of comparative advantage and globalization increasingly has a digital dimension. The implications of these developments for the future of sectors such as manufacturing and for international trade are assessed. Part II of the book addresses new issues in the growth agenda from the perspective of an individual major economy: South Korea. The chapters in this section analyze how macroeconomic developments and technological change are influencing the behavior of households and firms in terms of their decisions to consume, save, and invest. Rising income and wealth inequalities are a major concern globally. Against this backdrop, trends in the labor income share and wage inequalities in South Korea are analyzed in terms of the role played by technology, industrial concentration, shifts in labor demand and supply, and other factors. Throughout the book, the contributors, in their analysis of both global and Korea-specific trends and prospects, place emphasis on drawing implications for policy.
Productivity, Technology and Economic Growth presents a selection of recent research advances on long term economic growth. While the contributions stem from both economic history, macro- and microeconomics and the economics of innovation, all papers depart from a common viewpoint: the key factor behind long term growth is productivity, and the latter is primarily driven by technological change. Most contributions show implicitly or explicitly that technological change is at least partly dependent on growth itself. Furthermore, technology appears to interact strongly with investment in physical and human capital as well as with changes in historical, political and institutional settings. Together these papers are an up-to-date account of the remarkable convergence in theoretical and empirical work on productivity and growth over the past decades. The first part deals with the characteristics of growth regimes over longer periods, ranging from 20 years to two centuries. The next four chapters study the determinants of productivity growth and, in some cases, productivity slowdown during the last quarter of the twentieth century. The final five chapters focus on the role of technology and innovation as the key determinants of growth. Productivity, Technology and Economic Growth is, therefore, a welcome collection for academic scholars and graduate students in economics, history and related social sciences as well as for policy makers.
It gives me great pleasure to review this important book. I recommend it highly to any physicist with an interest or curiosity about this economy thing within which we operate. . . There is no excuse not to get this invaluable volume onto your bookshelf. Simon Roberts, Institute of Physics Energy Group This book addresses a very important topic, namely economic growth analysis from the angle of energy and material flows. The treatment is well balanced in terms of research and interpretation of the broader literature. The book not only contains a variety of empirical indicators, statistical analyses and insights, but also offers an unusually complete and pluralistic view on theorizing about economic growth and technological change. This results in a number of refreshing perspectives on known ideas and literatures. The text is so attractively written that I found it very difficult to stop reading. All in all, this is a very original and important contribution to the everlasting debate on growth versus environment. Jeroen C.J.M. van den Bergh, University of Barcelona, Spain and Free University, Amsterdam, The Netherlands Would you want your great-grandchildren in 2100AD to have a 22nd-century industrial economy? If so, read this book to grasp how strongly wealth depends on energy and its efficient use. Start treating fossil energy not as continuing income, but as one-time energy capital to spend on efficiency and long-term sustainable energy production. Otherwise, your descendants will inherit a broken 20th-century economy that only worked with cheap fossil fuels. They will not be rich and they will wonder what their ancestors were thinking. John R. Mashey, PhD, former Chief Scientist, Silicon Graphics Current economic theory attributes most income growth to technical progress. However, since technical progress can neither be defined nor measured, no one really knows what policies will encourage income growth. Ayres and Warr show that access to useful work, which can be defined and measured, explain the bulk of post-1900 income changes in Japan, Britain and the USA. They see rising real prices for fossil fuel and stagnating efficiencies of converting raw energy into useful work as a threat to continued income growth. This brilliant and original work has profound policy implications for future income growth without significant improvements in energy conversion efficiency. Thomas Casten, Chairman, Recycled Energy Development LLC Following the up-and-down energy shock of 2008, Ayres and Warr offer a unique analysis critical to our economic future. They argue that useful work produced by energy and energy services is far more important to overall GDP growth than conventional economic theory assumes. Their new theory, based on extensive empirical and theoretical analysis, has important implications for economists, businessmen and policymakers for anybody concerned with our economic future. Ayres and Warr argue persuasively that economic growth is not only endogenous but has been driven for the past two centuries largely by the declining effective cost of energy. If their new theory is correct, the inevitable future rise of the real cost of energy (beyond the $147 oil price peak in July 2008), could halt economic growth in the US and other advanced countries unless we dramatically improve energy with technology. J. Paul Horne, independent international market economist The historic link between output (GDP) growth and employment has weakened. Since there is no quantitively verifiable economic theory to explain past growth, this unique book explores the fundamental relationship between thermodynamics (physical work) and economics. The authors take a realistic approach to explaining the relationship between technological progress, thermodynamic efficiency and economic growth. Their findings are a step toward the integration of neo-classical and evolutionary perspectives on endogenous economic growth, concluding in a fundam
The purpose of this book is to examine the nature of organizational innovation and change by looking at the complex interplay between entrepreneurship, innovation and culture.
One of the most enduring questions in economics involves how a nation could accelerate the pace of its economic development. One of the most enduring answers to this question is to promote exports -either because doing so directly influences development via encouraging production of goods for export, or because export promotion permits accumulation of foreign exchange which permits importation of high-quality goods and services, which can in turn be used to expand the nation's production possibilities. In either case, growth is said to be export-led; the latter case is the so-called "two-gap" hypothesis (McKinnon, 1964; Findlay, 1973). The early work on export-led growth consisted of static cross-country com parisons (Michaely, 1977; Balassa, 1978; Tyler, 1981; Kormendi and Meguire, 1985). These studies generally concluded that there is strong evidence in favour of export-led growth because export growth and income growth are highly correlated. However, Kravis pointed out in 1970 that the question is an essen tially dynamic one: as he put it, are exports the handmaiden or the engine of growth? To make this determination one needs to look at time series to see whether or not exports are driving income. This approach has been taken in a number of papers (Jung and Marshall, 1985; Chow, 1987; Serletis, 1992; Kunst and Marin, 1989; Marin, 1992; Afxentiou and Serletis, 1991), designed to assess whether or not individual countries exhibit statistically significant evidence of export-led growth using Granger causality tests.
"The book investigates the technological development and its impact on economic and environmental sustainability in the world from an interdisciplinary perspective"--