What's new

How Culture Gives the US an Innovation Edge Over China

striver44

BANNED
Joined
Jul 25, 2016
Messages
4,832
Reaction score
-16
Country
Indonesia
Location
Indonesia
How Culture Gives the US an Innovation Edge Over China

Carl Benedikt Frey

February 08, 2021

Collectivist societies excel at production, while individualistic cultures nurture more invention.



Image courtesy of Brian Stauffer/theispot.com

For centuries, great powers have been looking over their shoulders, certain that somebody is gaining on them. In the late 1800s, Imperial Germany’s ascent unnerved Great Britain, the technology leader at the time. Today, alarm bells are ringing in Washington, D.C., where China’s rapid recovery from the coronavirus pandemic has cemented the notion that it will inevitably replace the United States as the world’s leading economic superpower. Some now speak of a Beijing consensus rather than a Washington consensus.

Both the Anglo-German and China-U.S. rivalries emerged during periods of rapid globalization and technological progress, as many have observed.1 Both pit a rising autocracy against an established democracy — so, not surprisingly, much of the discussion of China’s surge has focused on the relative merits of a state-led economy and a free market. However, arguments that China’s state-led economic policies are superior to the United States’ laissez-faire capitalism, or vice versa, tend to ignore context altogether. The countries’ economic models did not emerge in vacuums but rather evolved in societies with distinct cultural and psychological traits.

Innovation and Individualism

Scholars have only recently begun to pay attention to the striking variation in psychology across societies. In his remarkable new book The WEIRDest People in the World, Harvard professor Joseph Henrich notes that people in the West evolved to become particularly individualistic and prosocial beginning in the Middle Ages.2 According to Henrich, their path to prosperity began with the Roman Catholic Church’s family policies (such as bans on cousin marriage), which inadvertently dissolved kinship institutions and made Europeans increasingly free both relationally and residentially. Released from family obligations, people chose their own friends, spouses, and business partners. That, in turn, opened the door for the emergence of institutions such as voluntary associations, guilds, universities, and charter towns, which expanded social networks and acted as collective brains.

As Western societies scaled up, populations became more diverse and innovative, spurred by psychological developments like greater interpersonal trust, less conformity, and less reliance on authority, which helped facilitate the flow of ideas. Today, Westerners in general, and Anglo-Americans in particular, remain relatively individualistic. Geert Hofstede’s widely recognized measure of individualism, based on questions about the importance of personal ambitions and achievements, confirms this; his work also supports the idea that East Asian societies are more collectivist. Similarly, the psychologist Richard Nisbett has found that Euro-Americans are more analytical, while East Asians think more holistically, focusing less on individuals and more on the larger web of relationships that bind them together.

Cultural differences have deep historical roots beyond the policies of the Catholic Church, of course. Many comparisons of herding societies to farming societies suggest that the mobility of herding makes people more independent whereas farming cultures are more collectivist. The legacy of rice farming, which required a high degree of collaboration, continues to affect the Chinese.3 Rice paddies require standing water, so people in rice-growing regions had to build elaborate irrigation systems.4 Suddenly, one family’s water use affected their neighbors, making societies more collectivist.

Societies that sprang up around rice farming are still more interdependent and fiercely loyal, something psychological testing has shown is common in other rice-growing East Asian nations, such as Japan and Korea. But change the crop, and the society changes with it. Scholars have found that farmers in regions of China that historically specialized in wheat became more individualistic because wheat required less cooperation and allowed for more independent nuclear households. Those regions remain more innovative to this day, judging by the number of patents they take out, though they are still not as individualistic as their counterparts in the West.5

Celebrating and exploiting human diversity means recognizing that different societies have different advantages. If a government is directing a coordinated response to a pandemic that depends on individuals prioritizing the health of their communities over, say, the discomfort of wearing a face mask, collectivist cultural traits are helpful — just as they are when it comes to mass production, which depends on command and control.6 Conformity, however, can be an obstacle to innovation, for the simple reason that innovation calls for breaking the rules, not abiding by them.

Numerous studies have demonstrated that innovation is more likely to occur in societies that reward unconventional thinking.7 Corporate hierarchies based on command and control are good at driving incremental improvements, such as making production processes more efficient. They are much less likely, though, to foster disruptive innovations that challenge the status quo.8

Collectivist societies do have an advantage in large-scale production and commercialization due to workers’ willingness to comply with their managers’ instructions and work as a team: A factory assembly line cannot run properly if workers question every process. But discouraging deviant behavior has the unfortunate side effect of squelching creativity. Societies that emphasize personal freedom, broadly speaking, take out more patents.9 They lead when it comes to advancing innovation.

How Laggards Can Close the Gap

Innovation is fundamentally about exploration, which is why inventors benefit from urban settings that encourage spontaneous meetings and interactions. However, as a technology matures and moves into production, knowledge spillovers matter less. Consequently, maturing industries tend to relocate from cities to places where production costs are lower.10 This provides an opportunity for laggards to catch up without having to invest in the kind of exploration that pushes the technological frontier. By the same principle, lagging countries can take different paths to riches.

In his famous 1951 essay “Economic Backwardness in Historical Perspective,” economic historian Alexander Gerschenkron emphasized that less sophisticated economies can rapidly close the gap with more advanced nations by using the capacity of the state to make large investments and copying frontier technologies.11 That is precisely why great powers keep glancing in the rearview mirror.

In 1957, the Soviet Union capped two decades of extraordinary growth with the launch of Sputnik 1. Many observers took this as proof that the Communist regime would soon reign supreme, among them two Nobel Prize-winning economists. In 1960, Wassily Leontief described the Soviet economy as one “directed with determined ruthless skill.” Meanwhile, Paul Samuelson repeatedly predicted the economic dominance of the Soviet Union in the era’s most widely disseminated university economics textbook.

U.S. concerns about the Soviet Union’s economic power faded in the 1980s but were quickly replaced by fears over Japan’s ascent. A 1988 New York Times article raised the alarm that new supercomputers from Fujitsu, Hitachi, and NEC threatened the United States’ claim to technological leadership.12 Paul Kennedy’s 1987 bestseller The Rise and Fall of the Great Powers likewise predicted Japan’s ascent.13

While Kennedy showed that differential growth rates invariably cause churn in economic leadership and political tensions, he largely ignored what actually causes growth, and that skewed his vision of the future. Countries lagging behind the world technology frontier don’t need to innovate to grow. They can simply adopt foreign technology.14 The Soviet Union’s advances, for example, were based on its willingness to save and sacrifice in order to invest in machinery for the future. As a country closes the technology gap, however, the ability to innovate becomes paramount. To put it simply, it doesn’t matter how quickly a race car can accelerate from zero to 60 mph if it will never be able to go 61, let alone 200.

Collectivism and Catch-Up

Neoclassical growth theory predicts that differences in gross domestic product per capita across countries should converge over time. But in actual fact, the opposite has occurred. Since the Industrial Revolution, the West has pulled away from the rest of the world. Yes, there are notable success stories — Singapore, South Korea, and Taiwan have closed the gap with remarkable speed — but surprisingly few countries have managed to reach the technological frontier. It’s widely believed that Japan’s rapid industrialization, along with the economic growth of the other seven countries considered part of the 1960-1995 “East Asian miracle,” were based on aggressive industrial policies that required state capacity. But East Asian culture was arguably an enabler for those policies. In collectivist societies, where individual rights are seen as less important, there are fewer checks on the state to kick-start industrialization if it fears falling behind. Indeed, there is compelling evidence that people in individualistic countries don’t like government interventions.15

What’s more, collectivism gave East Asia a comparative advantage in the commercialization of new technology. As is well known, teamwork and consensus-building have been defining features of business management in Japan. And, as we have seen, cultures that prioritize harmony, conformity, and team effort are likely to have the edge in manufacturing. As IBM’s chief scientist noted in the 1980s, Japan’s greatest technological strength vis-à-vis the United States is “the speed with which developments are translated into improved products and processes.”16 Indeed, from the 1970s onward, many products invented in the West ended up being produced and commercialized in the East. The best color TV sets may have come from Japan, but the technology itself was created by the U.S.-based company RCA. Sony’s Walkman may have been one of the great consumer success stories of the 1980s, but it was a Dutch company, Philips, that invented the compact audio tape cassette that the Walkman was built to play. Similarly, Sony led the way in introducing the VCR, but the technology was invented by Ampex, a U.S. company.17 As Edwin Mansfield’s classic study showed in 1988, Japanese companies excelled at absorbing and improving foreign technology, but its indigenous innovations were mainly improvements in production processes. Two-thirds of Japanese R&D, Mansfield found, was process-oriented, while two-thirds of U.S. R&D was product-oriented.18

Copying and improving on efficiency can take a country a long way, and in East Asia, it clearly has. Still, incremental improvements in production methods and technology eventually produce diminishing returns. You can improve a cassette player in terms of design and functionality, but eventually you need a radical innovation to create a CD player or you arrive at a dead end.

Lessons From Japan

In 1979, Ezra Vogel’s book Japan as Number One became an instant bestseller. He argued that Japan’s consensus-driven culture, centralized authority, long-term planning, and large conglomerates gave the country a leg up in industrial policy and the exploitation of new technologies.

After World War II, Japan proceeded with the model of state-led development that it had relied on since the Meiji Restoration in 1868. In particular, as Chalmers Johnson has shown in some detail, the Ministry of International Trade and Industry (MITI) was heavily involved in the modernization of Japanese industry.19 It scanned the horizon for new technologies, imported foreign tech, and facilitated the sharing of knowledge and resources across the country’s industries. It pressed Japanese companies to enter expanding industries — and to exit declining ones. And it made certain that companies conformed to its policies. Banks could refuse to give loans to companies that ignored the MITI. In a more individualistic society, such as the U.S., that kind of activist government would almost certainly have been impossible to operate during peacetime.

However, as Japan approached the world’s technological frontier, its conformist attitudes arguably hindered radical innovation and structural change. While companies like Fujitsu, Hitachi, and NEC had leaped ahead in supercomputing hardware, Japan fell short in the move into software. Research shows that Japanese companies produced significantly fewer software inventions than their U.S. counterparts, beginning in the 1980s.20 “MITI was unable to ‘plan’ the geeky university dropout who starts a software firm or an internet business in his parents’ garage,” as author Joe Studwell put it.21

Japan failed to make the transition in part because of its lack of openness to outsiders, a common characteristic of collectivist societies. For example, Japan’s restrictive immigration policies and its long history as an ethnically homogenous society made it difficult to import talent to compensate for its shortage of skilled software engineers. The U.S., meanwhile, benefited from being open to immigration. A recent study published by the National Bureau of Economic Research credits immigration with having a positive impact on innovation in the United States, as measured by the number of patents granted.22

Japan also suffered because, as the MITI tried to spark modernization in the postwar years, many smaller businesses were consolidated into more sprawling — and less innovative — companies. One association, Keidanren, represented several hundred of the largest companies in Japan and was without peer in the world. Because small companies couldn’t begin to compete — and because their interests were so diverse that they couldn’t easily be aggregated — the country favored large incumbents at the expense of entrepreneurs, who are more likely to come up with radical innovations.

What’s more, Japan’s collectivist cultural traits were strongly reflected in the country’s corporate culture, which was predicated on loyal employees remaining with a company throughout their entire careers. This, too, had a deleterious effect. The kind of job-hopping that drives innovation and enables the free flow of ideas rarely occurred, especially compared with Silicon Valley, where much of the U.S. software industry clusters today. Silicon Valley has seen so much success, and such renewal, in part because worker mobility is so much greater there than it is in the computer industry elsewhere in the United States.23 When Gordon Moore and Robert Noyce left Fairchild Semiconductor to found Intel in 1968, it wasn’t just a career move: It was a pivotal moment in the area’s history.

Companies in Silicon Valley were also much less hierarchical than their Japanese counterparts. Hewlett-Packard, one of the area’s early success stories, took a decentralized approach to management from the start. The HP Way, as it came to be known, consisted of “management by wandering.” People moved freely around the workplace, leading to spontaneous interactions across the company. The open environment, fused with a change-the-world mentality, became the blueprint for many Silicon Valley companies to come.24

The Obedience Trap

China has drawn much inspiration from Japan. After Deng Xiaoping visited Japan in October 1978, he set up a Japanese advisory group that continued to meet with Chinese economic officials until 1992. Two Chinese organizations — the Quality Control Association and the Enterprise Management Association — were directly modeled on Japan’s modernization experience. Both bodies trained regional officials and factory managers, introducing them to ideas brought from Japan.25

Moreover, in the 1980s, the Japanese gave more aid to and built more factories in China than anywhere else. To be sure, the Chinese went to the United States for the latest science, but new machinery and production techniques were introduced by Japan. Chinese officials were particularly impressed with how the MITI had modernized industry.

Just as many observers worried that Japan would overtake the United States in the 1980s, many now believe that China will soon eclipse the U.S. But to overtake the United States, Beijing must leap even higher hurdles than Japan attempted to. China has not democratized and is yet to escape the middle-income trap, where many fast-growing upstarts often stall out. After a period of rapid catch-up, middle-income countries often fail to make the transition from imitation to innovation and never join the world’s most advanced economies in GDP per-capita terms. The recent culling of the manufacturing workforce, as advanced robots have entered factories, makes China’s transition to innovation all the more vital.26

Because production and innovation require different capabilities and thrive in different environments, switching from one to the other is difficult, as one can see in parts of even advanced economies. Once-prosperous industrial centers, like the Rust Belt in the United States, the Midlands in the United Kingdom, and the Ruhr valley in Germany, are now in despair. Industries oriented around mass production fostered obedience, which hindered innovation. As economic historian Oded Galor has found, even second-generation migrants whose mothers and fathers hailed from industrial regions are less likely to become entrepreneurs.27

This is the double-edged sword of cultural transmission: Parents teach their children the attitudes and behaviors they think will help them thrive as workers, but often the old ways lead only to stasis. China is no exception: Workers producing iPhones on Foxconn’s assembly line describe the company’s labor discipline as management “through the principle of obedience, obedience, and absolute obedience.”28 The same conformist cultural traits that facilitate mass production can make progress through innovation difficult, which some have termed the obedience trap.29

Challenges for China

As automation erodes China’s comparative advantage in production, the country needs to move quickly from exploitation to innovation. Much like Japan, it is pursuing ambitious industrial policies through its “Made in China 2025” initiative. And in many of its designated strategic areas, such as advanced robotics and artificial intelligence, it is closing the gap between itself and the United States. But while U.S. technology companies like Alphabet, Amazon, Facebook, and Microsoft are truly global, their Chinese competitors — Alibaba, Baidu, Sina Weibo, and Tencent — have struggled to grow beyond China’s borders. True, Huawei has done better. But if China wants to lead in innovation, the real question is not why Huawei emerged but why China doesn’t have a dozen Huaweis. Thirty years into Korea’s industrial take-off, the country already had two tech giants — Samsung and Hyundai — which had taken them to the technological frontier in memory semiconductors with only a fraction of China’s population and resources.30

Overall, Chinese companies excel at commercialization rather than innovation. According to think tank MacroPolo, 18 of the world’s 25 leading AI research institutions (companies included) are in the United States. And while China has seen an explosion of patents in recent years, most are of low value. According to International Monetary Fund data, China remains a major global importer of intellectual property, with a $30.2 billion deficit in 2018, much of it with the U.S.

China, of course, is a huge country, and some regions are more innovative than others. However, under Xi Jinping, China’s leadership has signaled a strong commitment to reinforcing collectivist values while clamping down on the flow of ideas. China’s surveillance state and censored internet, together with a social credit system that promotes conformity, make it unlikely that the country will take the lead in innovation. Xi’s decision to let state-owned enterprises (SOEs) exert more control over the economy will also slow them down: Chinese businesses, particularly SOEs, are lagging foreign-owned companies in terms of returns on R&D spending.31 Xi also wants even greater control of the private sector. As China observer Lingling Wei wrote, “The government is installing more Communist Party officials inside private firms, starving some of credit and demanding executives tailor their businesses to achieve state goals.”32 As the Japanese case illustrates, there are limits to what state capacity and industrial policy can achieve.

How the Chinese Communist Party controls the innovation process is perhaps most clearly seen in the development of autonomous vehicles. China’s cybersecurity law, which classifies vehicle data as “critical information infrastructure,” makes it a less attractive destination for testing and limits experimentation. In addition, the centralization of data collection is creating a model where companies are becoming dependent on instructions from municipality hubs that control routing choices and traffic flows.33 If history is any guide, a more decentralized system that favors experimentation is more likely to push the technological frontier.

In the 19th century, the Anglo-German rivalry prompted what historians have described as a “revolution from above” on the Continent. Intensifying great-power competition among European nation-states forced governments to dismantle barriers to innovation. But while the China-U.S. rivalry might do the same, great-power competition is not something to wish for: Dynamic competition in Europe ended in two world wars and widespread destruction
==========
from the Soviet Union in the 60s to the Japanese in the 80s, America is always going to be overtaken. Let's see if China could sustain it's growth before they stall.
 
.
How Culture Gives the US an Innovation Edge Over China

Carl Benedikt Frey

February 08, 2021

Collectivist societies excel at production, while individualistic cultures nurture more invention.



Image courtesy of Brian Stauffer/theispot.com

For centuries, great powers have been looking over their shoulders, certain that somebody is gaining on them. In the late 1800s, Imperial Germany’s ascent unnerved Great Britain, the technology leader at the time. Today, alarm bells are ringing in Washington, D.C., where China’s rapid recovery from the coronavirus pandemic has cemented the notion that it will inevitably replace the United States as the world’s leading economic superpower. Some now speak of a Beijing consensus rather than a Washington consensus.

Both the Anglo-German and China-U.S. rivalries emerged during periods of rapid globalization and technological progress, as many have observed.1 Both pit a rising autocracy against an established democracy — so, not surprisingly, much of the discussion of China’s surge has focused on the relative merits of a state-led economy and a free market. However, arguments that China’s state-led economic policies are superior to the United States’ laissez-faire capitalism, or vice versa, tend to ignore context altogether. The countries’ economic models did not emerge in vacuums but rather evolved in societies with distinct cultural and psychological traits.

Innovation and Individualism

Scholars have only recently begun to pay attention to the striking variation in psychology across societies. In his remarkable new book The WEIRDest People in the World, Harvard professor Joseph Henrich notes that people in the West evolved to become particularly individualistic and prosocial beginning in the Middle Ages.2 According to Henrich, their path to prosperity began with the Roman Catholic Church’s family policies (such as bans on cousin marriage), which inadvertently dissolved kinship institutions and made Europeans increasingly free both relationally and residentially. Released from family obligations, people chose their own friends, spouses, and business partners. That, in turn, opened the door for the emergence of institutions such as voluntary associations, guilds, universities, and charter towns, which expanded social networks and acted as collective brains.

As Western societies scaled up, populations became more diverse and innovative, spurred by psychological developments like greater interpersonal trust, less conformity, and less reliance on authority, which helped facilitate the flow of ideas. Today, Westerners in general, and Anglo-Americans in particular, remain relatively individualistic. Geert Hofstede’s widely recognized measure of individualism, based on questions about the importance of personal ambitions and achievements, confirms this; his work also supports the idea that East Asian societies are more collectivist. Similarly, the psychologist Richard Nisbett has found that Euro-Americans are more analytical, while East Asians think more holistically, focusing less on individuals and more on the larger web of relationships that bind them together.

Cultural differences have deep historical roots beyond the policies of the Catholic Church, of course. Many comparisons of herding societies to farming societies suggest that the mobility of herding makes people more independent whereas farming cultures are more collectivist. The legacy of rice farming, which required a high degree of collaboration, continues to affect the Chinese.3 Rice paddies require standing water, so people in rice-growing regions had to build elaborate irrigation systems.4 Suddenly, one family’s water use affected their neighbors, making societies more collectivist.

Societies that sprang up around rice farming are still more interdependent and fiercely loyal, something psychological testing has shown is common in other rice-growing East Asian nations, such as Japan and Korea. But change the crop, and the society changes with it. Scholars have found that farmers in regions of China that historically specialized in wheat became more individualistic because wheat required less cooperation and allowed for more independent nuclear households. Those regions remain more innovative to this day, judging by the number of patents they take out, though they are still not as individualistic as their counterparts in the West.5

Celebrating and exploiting human diversity means recognizing that different societies have different advantages. If a government is directing a coordinated response to a pandemic that depends on individuals prioritizing the health of their communities over, say, the discomfort of wearing a face mask, collectivist cultural traits are helpful — just as they are when it comes to mass production, which depends on command and control.6 Conformity, however, can be an obstacle to innovation, for the simple reason that innovation calls for breaking the rules, not abiding by them.

Numerous studies have demonstrated that innovation is more likely to occur in societies that reward unconventional thinking.7 Corporate hierarchies based on command and control are good at driving incremental improvements, such as making production processes more efficient. They are much less likely, though, to foster disruptive innovations that challenge the status quo.8

Collectivist societies do have an advantage in large-scale production and commercialization due to workers’ willingness to comply with their managers’ instructions and work as a team: A factory assembly line cannot run properly if workers question every process. But discouraging deviant behavior has the unfortunate side effect of squelching creativity. Societies that emphasize personal freedom, broadly speaking, take out more patents.9 They lead when it comes to advancing innovation.

How Laggards Can Close the Gap

Innovation is fundamentally about exploration, which is why inventors benefit from urban settings that encourage spontaneous meetings and interactions. However, as a technology matures and moves into production, knowledge spillovers matter less. Consequently, maturing industries tend to relocate from cities to places where production costs are lower.10 This provides an opportunity for laggards to catch up without having to invest in the kind of exploration that pushes the technological frontier. By the same principle, lagging countries can take different paths to riches.

In his famous 1951 essay “Economic Backwardness in Historical Perspective,” economic historian Alexander Gerschenkron emphasized that less sophisticated economies can rapidly close the gap with more advanced nations by using the capacity of the state to make large investments and copying frontier technologies.11 That is precisely why great powers keep glancing in the rearview mirror.

In 1957, the Soviet Union capped two decades of extraordinary growth with the launch of Sputnik 1. Many observers took this as proof that the Communist regime would soon reign supreme, among them two Nobel Prize-winning economists. In 1960, Wassily Leontief described the Soviet economy as one “directed with determined ruthless skill.” Meanwhile, Paul Samuelson repeatedly predicted the economic dominance of the Soviet Union in the era’s most widely disseminated university economics textbook.

U.S. concerns about the Soviet Union’s economic power faded in the 1980s but were quickly replaced by fears over Japan’s ascent. A 1988 New York Times article raised the alarm that new supercomputers from Fujitsu, Hitachi, and NEC threatened the United States’ claim to technological leadership.12 Paul Kennedy’s 1987 bestseller The Rise and Fall of the Great Powers likewise predicted Japan’s ascent.13

While Kennedy showed that differential growth rates invariably cause churn in economic leadership and political tensions, he largely ignored what actually causes growth, and that skewed his vision of the future. Countries lagging behind the world technology frontier don’t need to innovate to grow. They can simply adopt foreign technology.14 The Soviet Union’s advances, for example, were based on its willingness to save and sacrifice in order to invest in machinery for the future. As a country closes the technology gap, however, the ability to innovate becomes paramount. To put it simply, it doesn’t matter how quickly a race car can accelerate from zero to 60 mph if it will never be able to go 61, let alone 200.

Collectivism and Catch-Up

Neoclassical growth theory predicts that differences in gross domestic product per capita across countries should converge over time. But in actual fact, the opposite has occurred. Since the Industrial Revolution, the West has pulled away from the rest of the world. Yes, there are notable success stories — Singapore, South Korea, and Taiwan have closed the gap with remarkable speed — but surprisingly few countries have managed to reach the technological frontier. It’s widely believed that Japan’s rapid industrialization, along with the economic growth of the other seven countries considered part of the 1960-1995 “East Asian miracle,” were based on aggressive industrial policies that required state capacity. But East Asian culture was arguably an enabler for those policies. In collectivist societies, where individual rights are seen as less important, there are fewer checks on the state to kick-start industrialization if it fears falling behind. Indeed, there is compelling evidence that people in individualistic countries don’t like government interventions.15

What’s more, collectivism gave East Asia a comparative advantage in the commercialization of new technology. As is well known, teamwork and consensus-building have been defining features of business management in Japan. And, as we have seen, cultures that prioritize harmony, conformity, and team effort are likely to have the edge in manufacturing. As IBM’s chief scientist noted in the 1980s, Japan’s greatest technological strength vis-à-vis the United States is “the speed with which developments are translated into improved products and processes.”16 Indeed, from the 1970s onward, many products invented in the West ended up being produced and commercialized in the East. The best color TV sets may have come from Japan, but the technology itself was created by the U.S.-based company RCA. Sony’s Walkman may have been one of the great consumer success stories of the 1980s, but it was a Dutch company, Philips, that invented the compact audio tape cassette that the Walkman was built to play. Similarly, Sony led the way in introducing the VCR, but the technology was invented by Ampex, a U.S. company.17 As Edwin Mansfield’s classic study showed in 1988, Japanese companies excelled at absorbing and improving foreign technology, but its indigenous innovations were mainly improvements in production processes. Two-thirds of Japanese R&D, Mansfield found, was process-oriented, while two-thirds of U.S. R&D was product-oriented.18

Copying and improving on efficiency can take a country a long way, and in East Asia, it clearly has. Still, incremental improvements in production methods and technology eventually produce diminishing returns. You can improve a cassette player in terms of design and functionality, but eventually you need a radical innovation to create a CD player or you arrive at a dead end.

Lessons From Japan

In 1979, Ezra Vogel’s book Japan as Number One became an instant bestseller. He argued that Japan’s consensus-driven culture, centralized authority, long-term planning, and large conglomerates gave the country a leg up in industrial policy and the exploitation of new technologies.

After World War II, Japan proceeded with the model of state-led development that it had relied on since the Meiji Restoration in 1868. In particular, as Chalmers Johnson has shown in some detail, the Ministry of International Trade and Industry (MITI) was heavily involved in the modernization of Japanese industry.19 It scanned the horizon for new technologies, imported foreign tech, and facilitated the sharing of knowledge and resources across the country’s industries. It pressed Japanese companies to enter expanding industries — and to exit declining ones. And it made certain that companies conformed to its policies. Banks could refuse to give loans to companies that ignored the MITI. In a more individualistic society, such as the U.S., that kind of activist government would almost certainly have been impossible to operate during peacetime.

However, as Japan approached the world’s technological frontier, its conformist attitudes arguably hindered radical innovation and structural change. While companies like Fujitsu, Hitachi, and NEC had leaped ahead in supercomputing hardware, Japan fell short in the move into software. Research shows that Japanese companies produced significantly fewer software inventions than their U.S. counterparts, beginning in the 1980s.20 “MITI was unable to ‘plan’ the geeky university dropout who starts a software firm or an internet business in his parents’ garage,” as author Joe Studwell put it.21

Japan failed to make the transition in part because of its lack of openness to outsiders, a common characteristic of collectivist societies. For example, Japan’s restrictive immigration policies and its long history as an ethnically homogenous society made it difficult to import talent to compensate for its shortage of skilled software engineers. The U.S., meanwhile, benefited from being open to immigration. A recent study published by the National Bureau of Economic Research credits immigration with having a positive impact on innovation in the United States, as measured by the number of patents granted.22

Japan also suffered because, as the MITI tried to spark modernization in the postwar years, many smaller businesses were consolidated into more sprawling — and less innovative — companies. One association, Keidanren, represented several hundred of the largest companies in Japan and was without peer in the world. Because small companies couldn’t begin to compete — and because their interests were so diverse that they couldn’t easily be aggregated — the country favored large incumbents at the expense of entrepreneurs, who are more likely to come up with radical innovations.

What’s more, Japan’s collectivist cultural traits were strongly reflected in the country’s corporate culture, which was predicated on loyal employees remaining with a company throughout their entire careers. This, too, had a deleterious effect. The kind of job-hopping that drives innovation and enables the free flow of ideas rarely occurred, especially compared with Silicon Valley, where much of the U.S. software industry clusters today. Silicon Valley has seen so much success, and such renewal, in part because worker mobility is so much greater there than it is in the computer industry elsewhere in the United States.23 When Gordon Moore and Robert Noyce left Fairchild Semiconductor to found Intel in 1968, it wasn’t just a career move: It was a pivotal moment in the area’s history.

Companies in Silicon Valley were also much less hierarchical than their Japanese counterparts. Hewlett-Packard, one of the area’s early success stories, took a decentralized approach to management from the start. The HP Way, as it came to be known, consisted of “management by wandering.” People moved freely around the workplace, leading to spontaneous interactions across the company. The open environment, fused with a change-the-world mentality, became the blueprint for many Silicon Valley companies to come.24

The Obedience Trap

China has drawn much inspiration from Japan. After Deng Xiaoping visited Japan in October 1978, he set up a Japanese advisory group that continued to meet with Chinese economic officials until 1992. Two Chinese organizations — the Quality Control Association and the Enterprise Management Association — were directly modeled on Japan’s modernization experience. Both bodies trained regional officials and factory managers, introducing them to ideas brought from Japan.25

Moreover, in the 1980s, the Japanese gave more aid to and built more factories in China than anywhere else. To be sure, the Chinese went to the United States for the latest science, but new machinery and production techniques were introduced by Japan. Chinese officials were particularly impressed with how the MITI had modernized industry.

Just as many observers worried that Japan would overtake the United States in the 1980s, many now believe that China will soon eclipse the U.S. But to overtake the United States, Beijing must leap even higher hurdles than Japan attempted to. China has not democratized and is yet to escape the middle-income trap, where many fast-growing upstarts often stall out. After a period of rapid catch-up, middle-income countries often fail to make the transition from imitation to innovation and never join the world’s most advanced economies in GDP per-capita terms. The recent culling of the manufacturing workforce, as advanced robots have entered factories, makes China’s transition to innovation all the more vital.26

Because production and innovation require different capabilities and thrive in different environments, switching from one to the other is difficult, as one can see in parts of even advanced economies. Once-prosperous industrial centers, like the Rust Belt in the United States, the Midlands in the United Kingdom, and the Ruhr valley in Germany, are now in despair. Industries oriented around mass production fostered obedience, which hindered innovation. As economic historian Oded Galor has found, even second-generation migrants whose mothers and fathers hailed from industrial regions are less likely to become entrepreneurs.27

This is the double-edged sword of cultural transmission: Parents teach their children the attitudes and behaviors they think will help them thrive as workers, but often the old ways lead only to stasis. China is no exception: Workers producing iPhones on Foxconn’s assembly line describe the company’s labor discipline as management “through the principle of obedience, obedience, and absolute obedience.”28 The same conformist cultural traits that facilitate mass production can make progress through innovation difficult, which some have termed the obedience trap.29

Challenges for China

As automation erodes China’s comparative advantage in production, the country needs to move quickly from exploitation to innovation. Much like Japan, it is pursuing ambitious industrial policies through its “Made in China 2025” initiative. And in many of its designated strategic areas, such as advanced robotics and artificial intelligence, it is closing the gap between itself and the United States. But while U.S. technology companies like Alphabet, Amazon, Facebook, and Microsoft are truly global, their Chinese competitors — Alibaba, Baidu, Sina Weibo, and Tencent — have struggled to grow beyond China’s borders. True, Huawei has done better. But if China wants to lead in innovation, the real question is not why Huawei emerged but why China doesn’t have a dozen Huaweis. Thirty years into Korea’s industrial take-off, the country already had two tech giants — Samsung and Hyundai — which had taken them to the technological frontier in memory semiconductors with only a fraction of China’s population and resources.30

Overall, Chinese companies excel at commercialization rather than innovation. According to think tank MacroPolo, 18 of the world’s 25 leading AI research institutions (companies included) are in the United States. And while China has seen an explosion of patents in recent years, most are of low value. According to International Monetary Fund data, China remains a major global importer of intellectual property, with a $30.2 billion deficit in 2018, much of it with the U.S.

China, of course, is a huge country, and some regions are more innovative than others. However, under Xi Jinping, China’s leadership has signaled a strong commitment to reinforcing collectivist values while clamping down on the flow of ideas. China’s surveillance state and censored internet, together with a social credit system that promotes conformity, make it unlikely that the country will take the lead in innovation. Xi’s decision to let state-owned enterprises (SOEs) exert more control over the economy will also slow them down: Chinese businesses, particularly SOEs, are lagging foreign-owned companies in terms of returns on R&D spending.31 Xi also wants even greater control of the private sector. As China observer Lingling Wei wrote, “The government is installing more Communist Party officials inside private firms, starving some of credit and demanding executives tailor their businesses to achieve state goals.”32 As the Japanese case illustrates, there are limits to what state capacity and industrial policy can achieve.

How the Chinese Communist Party controls the innovation process is perhaps most clearly seen in the development of autonomous vehicles. China’s cybersecurity law, which classifies vehicle data as “critical information infrastructure,” makes it a less attractive destination for testing and limits experimentation. In addition, the centralization of data collection is creating a model where companies are becoming dependent on instructions from municipality hubs that control routing choices and traffic flows.33 If history is any guide, a more decentralized system that favors experimentation is more likely to push the technological frontier.

In the 19th century, the Anglo-German rivalry prompted what historians have described as a “revolution from above” on the Continent. Intensifying great-power competition among European nation-states forced governments to dismantle barriers to innovation. But while the China-U.S. rivalry might do the same, great-power competition is not something to wish for: Dynamic competition in Europe ended in two world wars and widespread destruction
==========
from the Soviet Union in the 60s to the Japanese in the 80s, America is always going to be overtaken. Let's see if China could sustain it's growth before they stall.

How many military tech did the US take from Nazi Germany to speak of innovation? Not only is the statement a fallacy to begin with but the fact that we are living in the globalized world where a Chinese company can open a research facility in Germany hiring Russians makes the whole argument completely moot.

 
. . .
. . .
1,The emergence of scientific way of thinking is believed as a miracle in the human history. It was firstly formed in the west hemisphere(Euclid geometry is a master piece by the way). Many scientists believe it's only a matter of luck for the west. However this luck gave the west a dominant advantage over the east. When Einstein published his “Theory of relative”, 99% Chinese barely knew there is something called "science". Conclusion: West world won east world in science in the last centuries because science happened to be formed in west and the east was in absence.

2, Science development needs two factors. Talents and money. USA happened to dominate in this two factors since world war 2 (Big part of talents were not Americans though).

3, Most breakthroughs made by US were orignated for US government projects, or funded by US government. Which is nothing different than present Chinese scientific strategy.
 
Last edited:
.
The last paragraph is incomplete, the bold type below is missing ...

... But while the China-U.S. rivalry might do the same, great-power competition is not something to wish for: Dynamic competition in Europe ended in two world wars and widespread destruction. Because the comparative advantage of China is different from that of the United States, the world would be better off without the zero-sum mentality that has characterized the jockeying of nations for hundreds of years. If the U.S. and China can continue to trade peacefully, it will benefit us all.

So basically it is -

muh China cannot innovate, so US should relax and calm down a bit.
 
.
How Culture Gives the US an Innovation Edge Over China

Carl Benedikt Frey

February 08, 2021

Collectivist societies excel at production, while individualistic cultures nurture more invention.



Image courtesy of Brian Stauffer/theispot.com

For centuries, great powers have been looking over their shoulders, certain that somebody is gaining on them. In the late 1800s, Imperial Germany’s ascent unnerved Great Britain, the technology leader at the time. Today, alarm bells are ringing in Washington, D.C., where China’s rapid recovery from the coronavirus pandemic has cemented the notion that it will inevitably replace the United States as the world’s leading economic superpower. Some now speak of a Beijing consensus rather than a Washington consensus.

Both the Anglo-German and China-U.S. rivalries emerged during periods of rapid globalization and technological progress, as many have observed.1 Both pit a rising autocracy against an established democracy — so, not surprisingly, much of the discussion of China’s surge has focused on the relative merits of a state-led economy and a free market. However, arguments that China’s state-led economic policies are superior to the United States’ laissez-faire capitalism, or vice versa, tend to ignore context altogether. The countries’ economic models did not emerge in vacuums but rather evolved in societies with distinct cultural and psychological traits.

Innovation and Individualism

Scholars have only recently begun to pay attention to the striking variation in psychology across societies. In his remarkable new book The WEIRDest People in the World, Harvard professor Joseph Henrich notes that people in the West evolved to become particularly individualistic and prosocial beginning in the Middle Ages.2 According to Henrich, their path to prosperity began with the Roman Catholic Church’s family policies (such as bans on cousin marriage), which inadvertently dissolved kinship institutions and made Europeans increasingly free both relationally and residentially. Released from family obligations, people chose their own friends, spouses, and business partners. That, in turn, opened the door for the emergence of institutions such as voluntary associations, guilds, universities, and charter towns, which expanded social networks and acted as collective brains.

As Western societies scaled up, populations became more diverse and innovative, spurred by psychological developments like greater interpersonal trust, less conformity, and less reliance on authority, which helped facilitate the flow of ideas. Today, Westerners in general, and Anglo-Americans in particular, remain relatively individualistic. Geert Hofstede’s widely recognized measure of individualism, based on questions about the importance of personal ambitions and achievements, confirms this; his work also supports the idea that East Asian societies are more collectivist. Similarly, the psychologist Richard Nisbett has found that Euro-Americans are more analytical, while East Asians think more holistically, focusing less on individuals and more on the larger web of relationships that bind them together.

Cultural differences have deep historical roots beyond the policies of the Catholic Church, of course. Many comparisons of herding societies to farming societies suggest that the mobility of herding makes people more independent whereas farming cultures are more collectivist. The legacy of rice farming, which required a high degree of collaboration, continues to affect the Chinese.3 Rice paddies require standing water, so people in rice-growing regions had to build elaborate irrigation systems.4 Suddenly, one family’s water use affected their neighbors, making societies more collectivist.

Societies that sprang up around rice farming are still more interdependent and fiercely loyal, something psychological testing has shown is common in other rice-growing East Asian nations, such as Japan and Korea. But change the crop, and the society changes with it. Scholars have found that farmers in regions of China that historically specialized in wheat became more individualistic because wheat required less cooperation and allowed for more independent nuclear households. Those regions remain more innovative to this day, judging by the number of patents they take out, though they are still not as individualistic as their counterparts in the West.5

Celebrating and exploiting human diversity means recognizing that different societies have different advantages. If a government is directing a coordinated response to a pandemic that depends on individuals prioritizing the health of their communities over, say, the discomfort of wearing a face mask, collectivist cultural traits are helpful — just as they are when it comes to mass production, which depends on command and control.6 Conformity, however, can be an obstacle to innovation, for the simple reason that innovation calls for breaking the rules, not abiding by them.

Numerous studies have demonstrated that innovation is more likely to occur in societies that reward unconventional thinking.7 Corporate hierarchies based on command and control are good at driving incremental improvements, such as making production processes more efficient. They are much less likely, though, to foster disruptive innovations that challenge the status quo.8

Collectivist societies do have an advantage in large-scale production and commercialization due to workers’ willingness to comply with their managers’ instructions and work as a team: A factory assembly line cannot run properly if workers question every process. But discouraging deviant behavior has the unfortunate side effect of squelching creativity. Societies that emphasize personal freedom, broadly speaking, take out more patents.9 They lead when it comes to advancing innovation.

How Laggards Can Close the Gap

Innovation is fundamentally about exploration, which is why inventors benefit from urban settings that encourage spontaneous meetings and interactions. However, as a technology matures and moves into production, knowledge spillovers matter less. Consequently, maturing industries tend to relocate from cities to places where production costs are lower.10 This provides an opportunity for laggards to catch up without having to invest in the kind of exploration that pushes the technological frontier. By the same principle, lagging countries can take different paths to riches.

In his famous 1951 essay “Economic Backwardness in Historical Perspective,” economic historian Alexander Gerschenkron emphasized that less sophisticated economies can rapidly close the gap with more advanced nations by using the capacity of the state to make large investments and copying frontier technologies.11 That is precisely why great powers keep glancing in the rearview mirror.

In 1957, the Soviet Union capped two decades of extraordinary growth with the launch of Sputnik 1. Many observers took this as proof that the Communist regime would soon reign supreme, among them two Nobel Prize-winning economists. In 1960, Wassily Leontief described the Soviet economy as one “directed with determined ruthless skill.” Meanwhile, Paul Samuelson repeatedly predicted the economic dominance of the Soviet Union in the era’s most widely disseminated university economics textbook.

U.S. concerns about the Soviet Union’s economic power faded in the 1980s but were quickly replaced by fears over Japan’s ascent. A 1988 New York Times article raised the alarm that new supercomputers from Fujitsu, Hitachi, and NEC threatened the United States’ claim to technological leadership.12 Paul Kennedy’s 1987 bestseller The Rise and Fall of the Great Powers likewise predicted Japan’s ascent.13

While Kennedy showed that differential growth rates invariably cause churn in economic leadership and political tensions, he largely ignored what actually causes growth, and that skewed his vision of the future. Countries lagging behind the world technology frontier don’t need to innovate to grow. They can simply adopt foreign technology.14 The Soviet Union’s advances, for example, were based on its willingness to save and sacrifice in order to invest in machinery for the future. As a country closes the technology gap, however, the ability to innovate becomes paramount. To put it simply, it doesn’t matter how quickly a race car can accelerate from zero to 60 mph if it will never be able to go 61, let alone 200.

Collectivism and Catch-Up

Neoclassical growth theory predicts that differences in gross domestic product per capita across countries should converge over time. But in actual fact, the opposite has occurred. Since the Industrial Revolution, the West has pulled away from the rest of the world. Yes, there are notable success stories — Singapore, South Korea, and Taiwan have closed the gap with remarkable speed — but surprisingly few countries have managed to reach the technological frontier. It’s widely believed that Japan’s rapid industrialization, along with the economic growth of the other seven countries considered part of the 1960-1995 “East Asian miracle,” were based on aggressive industrial policies that required state capacity. But East Asian culture was arguably an enabler for those policies. In collectivist societies, where individual rights are seen as less important, there are fewer checks on the state to kick-start industrialization if it fears falling behind. Indeed, there is compelling evidence that people in individualistic countries don’t like government interventions.15

What’s more, collectivism gave East Asia a comparative advantage in the commercialization of new technology. As is well known, teamwork and consensus-building have been defining features of business management in Japan. And, as we have seen, cultures that prioritize harmony, conformity, and team effort are likely to have the edge in manufacturing. As IBM’s chief scientist noted in the 1980s, Japan’s greatest technological strength vis-à-vis the United States is “the speed with which developments are translated into improved products and processes.”16 Indeed, from the 1970s onward, many products invented in the West ended up being produced and commercialized in the East. The best color TV sets may have come from Japan, but the technology itself was created by the U.S.-based company RCA. Sony’s Walkman may have been one of the great consumer success stories of the 1980s, but it was a Dutch company, Philips, that invented the compact audio tape cassette that the Walkman was built to play. Similarly, Sony led the way in introducing the VCR, but the technology was invented by Ampex, a U.S. company.17 As Edwin Mansfield’s classic study showed in 1988, Japanese companies excelled at absorbing and improving foreign technology, but its indigenous innovations were mainly improvements in production processes. Two-thirds of Japanese R&D, Mansfield found, was process-oriented, while two-thirds of U.S. R&D was product-oriented.18

Copying and improving on efficiency can take a country a long way, and in East Asia, it clearly has. Still, incremental improvements in production methods and technology eventually produce diminishing returns. You can improve a cassette player in terms of design and functionality, but eventually you need a radical innovation to create a CD player or you arrive at a dead end.

Lessons From Japan

In 1979, Ezra Vogel’s book Japan as Number One became an instant bestseller. He argued that Japan’s consensus-driven culture, centralized authority, long-term planning, and large conglomerates gave the country a leg up in industrial policy and the exploitation of new technologies.

After World War II, Japan proceeded with the model of state-led development that it had relied on since the Meiji Restoration in 1868. In particular, as Chalmers Johnson has shown in some detail, the Ministry of International Trade and Industry (MITI) was heavily involved in the modernization of Japanese industry.19 It scanned the horizon for new technologies, imported foreign tech, and facilitated the sharing of knowledge and resources across the country’s industries. It pressed Japanese companies to enter expanding industries — and to exit declining ones. And it made certain that companies conformed to its policies. Banks could refuse to give loans to companies that ignored the MITI. In a more individualistic society, such as the U.S., that kind of activist government would almost certainly have been impossible to operate during peacetime.

However, as Japan approached the world’s technological frontier, its conformist attitudes arguably hindered radical innovation and structural change. While companies like Fujitsu, Hitachi, and NEC had leaped ahead in supercomputing hardware, Japan fell short in the move into software. Research shows that Japanese companies produced significantly fewer software inventions than their U.S. counterparts, beginning in the 1980s.20 “MITI was unable to ‘plan’ the geeky university dropout who starts a software firm or an internet business in his parents’ garage,” as author Joe Studwell put it.21

Japan failed to make the transition in part because of its lack of openness to outsiders, a common characteristic of collectivist societies. For example, Japan’s restrictive immigration policies and its long history as an ethnically homogenous society made it difficult to import talent to compensate for its shortage of skilled software engineers. The U.S., meanwhile, benefited from being open to immigration. A recent study published by the National Bureau of Economic Research credits immigration with having a positive impact on innovation in the United States, as measured by the number of patents granted.22

Japan also suffered because, as the MITI tried to spark modernization in the postwar years, many smaller businesses were consolidated into more sprawling — and less innovative — companies. One association, Keidanren, represented several hundred of the largest companies in Japan and was without peer in the world. Because small companies couldn’t begin to compete — and because their interests were so diverse that they couldn’t easily be aggregated — the country favored large incumbents at the expense of entrepreneurs, who are more likely to come up with radical innovations.

What’s more, Japan’s collectivist cultural traits were strongly reflected in the country’s corporate culture, which was predicated on loyal employees remaining with a company throughout their entire careers. This, too, had a deleterious effect. The kind of job-hopping that drives innovation and enables the free flow of ideas rarely occurred, especially compared with Silicon Valley, where much of the U.S. software industry clusters today. Silicon Valley has seen so much success, and such renewal, in part because worker mobility is so much greater there than it is in the computer industry elsewhere in the United States.23 When Gordon Moore and Robert Noyce left Fairchild Semiconductor to found Intel in 1968, it wasn’t just a career move: It was a pivotal moment in the area’s history.

Companies in Silicon Valley were also much less hierarchical than their Japanese counterparts. Hewlett-Packard, one of the area’s early success stories, took a decentralized approach to management from the start. The HP Way, as it came to be known, consisted of “management by wandering.” People moved freely around the workplace, leading to spontaneous interactions across the company. The open environment, fused with a change-the-world mentality, became the blueprint for many Silicon Valley companies to come.24

The Obedience Trap

China has drawn much inspiration from Japan. After Deng Xiaoping visited Japan in October 1978, he set up a Japanese advisory group that continued to meet with Chinese economic officials until 1992. Two Chinese organizations — the Quality Control Association and the Enterprise Management Association — were directly modeled on Japan’s modernization experience. Both bodies trained regional officials and factory managers, introducing them to ideas brought from Japan.25

Moreover, in the 1980s, the Japanese gave more aid to and built more factories in China than anywhere else. To be sure, the Chinese went to the United States for the latest science, but new machinery and production techniques were introduced by Japan. Chinese officials were particularly impressed with how the MITI had modernized industry.

Just as many observers worried that Japan would overtake the United States in the 1980s, many now believe that China will soon eclipse the U.S. But to overtake the United States, Beijing must leap even higher hurdles than Japan attempted to. China has not democratized and is yet to escape the middle-income trap, where many fast-growing upstarts often stall out. After a period of rapid catch-up, middle-income countries often fail to make the transition from imitation to innovation and never join the world’s most advanced economies in GDP per-capita terms. The recent culling of the manufacturing workforce, as advanced robots have entered factories, makes China’s transition to innovation all the more vital.26

Because production and innovation require different capabilities and thrive in different environments, switching from one to the other is difficult, as one can see in parts of even advanced economies. Once-prosperous industrial centers, like the Rust Belt in the United States, the Midlands in the United Kingdom, and the Ruhr valley in Germany, are now in despair. Industries oriented around mass production fostered obedience, which hindered innovation. As economic historian Oded Galor has found, even second-generation migrants whose mothers and fathers hailed from industrial regions are less likely to become entrepreneurs.27

This is the double-edged sword of cultural transmission: Parents teach their children the attitudes and behaviors they think will help them thrive as workers, but often the old ways lead only to stasis. China is no exception: Workers producing iPhones on Foxconn’s assembly line describe the company’s labor discipline as management “through the principle of obedience, obedience, and absolute obedience.”28 The same conformist cultural traits that facilitate mass production can make progress through innovation difficult, which some have termed the obedience trap.29

Challenges for China

As automation erodes China’s comparative advantage in production, the country needs to move quickly from exploitation to innovation. Much like Japan, it is pursuing ambitious industrial policies through its “Made in China 2025” initiative. And in many of its designated strategic areas, such as advanced robotics and artificial intelligence, it is closing the gap between itself and the United States. But while U.S. technology companies like Alphabet, Amazon, Facebook, and Microsoft are truly global, their Chinese competitors — Alibaba, Baidu, Sina Weibo, and Tencent — have struggled to grow beyond China’s borders. True, Huawei has done better. But if China wants to lead in innovation, the real question is not why Huawei emerged but why China doesn’t have a dozen Huaweis. Thirty years into Korea’s industrial take-off, the country already had two tech giants — Samsung and Hyundai — which had taken them to the technological frontier in memory semiconductors with only a fraction of China’s population and resources.30

Overall, Chinese companies excel at commercialization rather than innovation. According to think tank MacroPolo, 18 of the world’s 25 leading AI research institutions (companies included) are in the United States. And while China has seen an explosion of patents in recent years, most are of low value. According to International Monetary Fund data, China remains a major global importer of intellectual property, with a $30.2 billion deficit in 2018, much of it with the U.S.

China, of course, is a huge country, and some regions are more innovative than others. However, under Xi Jinping, China’s leadership has signaled a strong commitment to reinforcing collectivist values while clamping down on the flow of ideas. China’s surveillance state and censored internet, together with a social credit system that promotes conformity, make it unlikely that the country will take the lead in innovation. Xi’s decision to let state-owned enterprises (SOEs) exert more control over the economy will also slow them down: Chinese businesses, particularly SOEs, are lagging foreign-owned companies in terms of returns on R&D spending.31 Xi also wants even greater control of the private sector. As China observer Lingling Wei wrote, “The government is installing more Communist Party officials inside private firms, starving some of credit and demanding executives tailor their businesses to achieve state goals.”32 As the Japanese case illustrates, there are limits to what state capacity and industrial policy can achieve.

How the Chinese Communist Party controls the innovation process is perhaps most clearly seen in the development of autonomous vehicles. China’s cybersecurity law, which classifies vehicle data as “critical information infrastructure,” makes it a less attractive destination for testing and limits experimentation. In addition, the centralization of data collection is creating a model where companies are becoming dependent on instructions from municipality hubs that control routing choices and traffic flows.33 If history is any guide, a more decentralized system that favors experimentation is more likely to push the technological frontier.

In the 19th century, the Anglo-German rivalry prompted what historians have described as a “revolution from above” on the Continent. Intensifying great-power competition among European nation-states forced governments to dismantle barriers to innovation. But while the China-U.S. rivalry might do the same, great-power competition is not something to wish for: Dynamic competition in Europe ended in two world wars and widespread destruction
==========
from the Soviet Union in the 60s to the Japanese in the 80s, America is always going to be overtaken. Let's see if China could sustain it's growth before they stall.





Culture has made india the most advanced and powerful inventor of all the worlds major inventions, sciences and technologies.................. :disagree:
 
.
Culture has made india the most advanced and powerful inventor of all the worlds major inventions, sciences and technologies.................. :disagree:
He is Indian with cheap American propaganda because Chinese culture is older than America also dictatorship didn’t stop nazi Germany and Soviet Union to be the most technologically advanced countries in their time
 
.
He is Indian with cheap American propaganda because Chinese culture is older than America also dictatorship didn’t stop nazi Germany and Soviet Union to be the most technologically advanced countries in their time



He is latching on to american culture because indian people and their culture are inherently inferior and dirty.
 
.
1,The emergence of scientific way of thinking is believed as a miracle in the human history. It firstly formed in the west hemisphere(Euclid geometry is a master piece by the way). Many scientists believe it's only a matter of luck for the west. However this luck gave the west a dominant advantage over the east. When Einstein published his “Theory of relative”, 99% Chinese barely knew there is something called "science". Conclusion: West world won east world in science in the last centuries because science happened to be formed in west and the east was in absence.

2, Science development needs two factors. Talents and money. USA happened to dominate in this two factors since world war 2 (Big part of talents were not Americans though).

3, Most breakthroughs made by US were orignated for US government projects, or funded by US government. Which is nothing different than present Chinese scientific strategy.
Most of Manhattan project scientists were immigrant and Jews and not white Americans and after the war they stole nazi science and achievements
 
.
In trade wars of 200 years ago, the pirates were Americans
By PAUL WISEMANMarch 29, 2019




1 of 3
FILE - This June 11, 2018 file photo shows an Alexander Hamilton exhibit called "Alexander Hamilton: Soldier, Secretary, Icon," at Smithsonian National Postal Museum in Washington. Hamilton, determined to transform America into an industrial power, argued in 1791 that the United States needed “to procure all such machines as are known in any part of Europe.” Trouble was, Britain, the world’s technological leader, closely guarded its advantages. (AP Photo/Manuel Balce Ceneta, File)


WASHINGTON (AP) — The upstart nation was a den of intellectual piracy. One of its top officials urged his countrymen to steal and copy foreign machinery. Across the ocean, a leading industrial power tried in vain to guard its trade secrets from the brash young rival.
In the late 18th and early 19th centuries, the rogue nation was the United States. The official endorsing thievery was Treasury Secretary Alexander Hamilton. And the main victim was Britain.
How times have changed.
Now, the United States accuses China of the very sort of illicit practices that helped America leapfrog European rivals two centuries ago and emerge as an industrial giant.

“The message we are sending to China today is, Do as I say, not as I did,′ ” said Peter Andreas, professor at Brown University’s Watson Institute for International and Public Affairs. “The fact of the matter is that the U.S. was the world’s hotbed of intellectual property theft.”
Having imposed tariffs on $250 billion in Chinese goods, the Trump administration is trying to force Beijing to abandon what it calls its brass-knuckles drive to exploit American technology to speed its own economic modernization. The administration alleges — and many China watchers agree — that Beijing steals trade secrets and coerces U.S. companies to hand them over as the price of admission to the vast Chinese market.
More than two centuries ago, the young United States, an agrarian backwater lacking in skilled workers, held a different view of other nations’ trade secrets: They were, it seemed, up for grabs. In 2012, having surveyed the sordid history of U.S. industrial espionage, the journal Foreign Policy called America “the China of the 19th century.
“Only after becoming the leading industrial power did it become a champion of intellectual-property protections,” said Andreas, author of “Smuggler Nation: How Illicit Trade Made America.”
Hamilton, determined to transform America into an industrial power, argued in 1791 that the United States needed “to procure all such machines as are known in any part of Europe.”
Trouble was, Britain, the world’s technological leader, closely guarded its advantages. The London government imposed a 200-pound fine (equal to roughly $22,000 today) on anyone who tried to spirit industrial equipment out of Britain — a penalty that escalated to 500 pounds ($55,000) for critically important textile machines, according to research by Doron Ben-Atar, a Fordham University historian and the author of “Trade Secrets: Intellectual Piracy and the Origins of American Industrial Power.”

For the 18th century United States to build its economic might, highly skilled or knowledgeable people were just as tempting a target as hardware. In the days before instruction manuals, manufacturers needed workers who knew how to assemble and operate machines acquired from overseas. Wary of the intrusion, Britain officials threatened headhunters with a year in prison for every British worker they recruited to work overseas.
Yet they couldn’t stop the brain drain, which the U.S. government actively encouraged. In 1791, Hamilton authorized the Treasury to pay $48 to subsidize the living expenses of an English weaver who pledged to deliver to the U.S. a copycat version of a British spinning machine.
One key defection was Samuel Slater of Derbyshire, who had apprenticed under a leading British industrialist. Figuring his prospects were brighter across the Atlantic, Slater disguised himself as a farmer, boarded a ship to the United States, signed on with a business owner in Rhode Island and replanted Britain’s cutting-edge cotton-spinning technology on American soil. In the United States, he was sometimes called “the father of the American Industrial Revolution.”
Back in Britain, he was accorded a rather different nickname: “Slater the Traitor.”
Perhaps the most impressive heist was orchestrated in the early 1800s by Francis Cabot Lowell, the Massachusetts industrialist. During a tour of England and Scotland, Lowell had visited British textile factories and managed to memorize their design and inner workings. On the voyage back to America, Lowell’s ship was stopped and searched by British officials who had been tipped off that he might have stolen industrial designs. They found nothing; the secrets were all in Lowell’s head. He would go on to establish a textile-producing empire in Massachusetts.
Intellectual pirates were celebrated in the young United States, just as they are now in China. A man who smuggled a cotton-processing machine from London was hailed by one Pennsylvania trade group as “the ingenious artizan who counterfeited the Carding and Spinning Machine” and was promised awards and prizes, according to Andreas’ book. His copycat equipment was displayed on a float in Philadelphia’s July 4 parade of 1788.
Likewise, today’s Chinese industrial spies sometimes earn public recognition. The Justice Department asserts that a former Coca-Cola engineer who is accused of stealing trade secrets worth $100 million was partly scheming to win the Chinese “Thousand Talent” award, as well as an award from Shandong Province for people who transport valuable technology to China.
Douglas Irwin, a Dartmouth College economist who wrote a 2017 history of U.S. trade policy “Clashing Over Commerce,” cautioned that the early American efforts to gain a technological edge were nowhere near as comprehensive as China’s efforts are today. In an audacious blueprint called Made in China 2025, Beijing has designed a plan to create world-beating Chinese companies in such advanced fields as robotics and electric cars. In pursuing this goal, the U.S. charges, China has unfairly subsidized its own companies and hobbled foreign competitors.
By contrast, Congress wouldn’t approve Hamilton’s most ambitious plans for a U.S. industrial policy, Ben-Atar has noted. But the United States back then didn’t really need much help from the government, he said. It enjoyed — and enjoys — an advantage that today’s China doesn’t: Foreigners want to live in America. And those who do bring their knowledge and talent.
China, ruled by an authoritarian Communist regime, isn’t very inviting to foreigners who might otherwise put down roots.
“The best and brightest in the world still don’t go to China,” Ben-Atar said. “They go to the Silicon Valley and Route 128 in Boston and the Research Triangle in North Carolina. ... The jury’s out on whether a society dedicated to repression can actually become the mecca of innovation.”
Even so, Ben-Atar doubts that the U.S. can effectively keep its technology from slipping away.
“The history of trying to restrict the movement of technology is the history of failure,” he said.
In the 13th century, he noted, the Italian city-state of Venice sought to protect its glass-making industry by isolating its artisans on the island of Murano. Venice’s secrets got out anyway.
Andreas doesn’t object to the U.S. trying to combat Chinese piracy. But “the finger-pointing and righteous indignation,” he said, “should be tempered by a historical reality check.”

 
. .

Pakistan Affairs Latest Posts

Back
Top Bottom