- Témaindító
- #1
- Csatlakozás
- 2020.09.06.
- Üzenetek
- 7,198
- Reakció pontszám
- 74
- Díjak
- 5
Technology and the Rise of Great Powers How Diffusion Shapes Economic Competition by Jeffrey Ding | 3.02 MB
320 Pages
Title: Technology and the Rise of Great Powers: How Diffusion Shapes Economic Competition
Author: Jeffrey Ding
Description:
A novel theory of how technological revolutions affect the rise and fall of great powers
When scholars and policymakers consider how technological advances affect the rise and fall of great powers, they draw on theories that center the moment of innovation-the eureka moment that sparks astonishing technological feats. In this book, Jeffrey Ding offers a different explanation of how technological revolutions affect competition among great powers. Rather than focusing on which state first introduced major innovations, he investigates why some states were more successful than others at adapting and embracing new technologies at scale. Drawing on historical case studies of past industrial revolutions as well as statistical analysis, Ding develops a theory that emphasizes institutional adaptations oriented around diffusing technological advances throughout the entire economy.
Examining Britain's rise to preeminence in the First Industrial Revolution, America and Germany's overtaking of Britain in the Second Industrial Revolution, and Japan's challenge to America's technological dominance in the Third Industrial Revolution (also known as the "information revolution"), Ding illuminates the pathway by which these technological revolutions influenced the global distribution of power and explores the generalizability of his theory beyond the given set of great powers. His findings bear directly on current concerns about how emerging technologies such as AI could influence the US-China power balance.
Review
"A rich and essential contribution that transcends any one intellectual field. To say Technology and the Rise of Great Powers is timely is an understatement, given both the intensifying economic and security competition between the United States and China as well as the very visible advent and apparently rapid spread of AI." - Jonathan D. Caverley, US Naval War College
"Ding's Technology and the Rise of Great Powers provides a powerful new argument about how technology can change world politics. He shows that creating an infrastructure of education and training systems for developing new general-purpose technology skills is critical to global leadership. Power transitions in global politics may depend more on ordinary engineers than on heroic inventors."- Helen Milner, Princeton University
"A well-written, ambitious book. It will certainly have a major impact on the field and will likely kick off an important debate on the role of technology in great power relations."- Abraham Newman, Georgetown University
About the Author
Jeffrey Ding is assistant professor of political science at George Washington University. He also holds research affiliations with the Foreign Policy Research Institute, the Elliott School of International Affairs, and the Centre for the Governance of AI.
DOWNLOAD:
A novel theory of how technological revolutions affect the rise and fall of great powers
When scholars and policymakers consider how technological advances affect the rise and fall of great powers, they draw on theories that center the moment of innovation-the eureka moment that sparks astonishing technological feats. In this book, Jeffrey Ding offers a different explanation of how technological revolutions affect competition among great powers. Rather than focusing on which state first introduced major innovations, he investigates why some states were more successful than others at adapting and embracing new technologies at scale. Drawing on historical case studies of past industrial revolutions as well as statistical analysis, Ding develops a theory that emphasizes institutional adaptations oriented around diffusing technological advances throughout the entire economy.
Examining Britain's rise to preeminence in the First Industrial Revolution, America and Germany's overtaking of Britain in the Second Industrial Revolution, and Japan's challenge to America's technological dominance in the Third Industrial Revolution (also known as the "information revolution"), Ding illuminates the pathway by which these technological revolutions influenced the global distribution of power and explores the generalizability of his theory beyond the given set of great powers. His findings bear directly on current concerns about how emerging technologies such as AI could influence the US-China power balance.
Review
"A rich and essential contribution that transcends any one intellectual field. To say Technology and the Rise of Great Powers is timely is an understatement, given both the intensifying economic and security competition between the United States and China as well as the very visible advent and apparently rapid spread of AI." - Jonathan D. Caverley, US Naval War College
"Ding's Technology and the Rise of Great Powers provides a powerful new argument about how technology can change world politics. He shows that creating an infrastructure of education and training systems for developing new general-purpose technology skills is critical to global leadership. Power transitions in global politics may depend more on ordinary engineers than on heroic inventors."- Helen Milner, Princeton University
"A well-written, ambitious book. It will certainly have a major impact on the field and will likely kick off an important debate on the role of technology in great power relations."- Abraham Newman, Georgetown University
About the Author
Jeffrey Ding is assistant professor of political science at George Washington University. He also holds research affiliations with the Foreign Policy Research Institute, the Elliott School of International Affairs, and the Centre for the Governance of AI.
DOWNLOAD:
Code:
⚠
A kód megtekintéséhez jelentkezz be.
Please log in to view the code.
Code:
⚠
A kód megtekintéséhez jelentkezz be.
Please log in to view the code.