<<20130111>>
Archived distributions can be retrieved at; <http://tinyurl.com/azg3eyl>. This archive includes a html version of this list
distribution and its MS/WORD version with its filename as
Òyear-month-date.doc.Ó You can also access all of its attachments, if any.
References:
(a)
"Globally Collaborative Innovation Network with Global University
System," (July, 2006)
<http://tinyurl.com/fuwg6>
(b) The Global Early Warning System (GEWS) with The Global University System
(GUS): Their Use Within ECOWAS Countries (October 7, 2012)
<http://tinyurl.com/bqbjh9g>
Dear e-Colleagues:
Happy and Healthy New Year!!
(1) I would strongly suggest to read the article in ATTACHMENT I
below.
(2) In relation to this article, you may also be of some interest in reading
the References (a) and (b) above.
As you see in the last diagram in the last page of the Reference (b) above, we
are now creating global models on;
(a)
Globally Distributed Socio-Economic-Environmental Simulation System and
(b) Globally Distributed Climate Simulation System
in a global scale virtual super-computer, which is to be the step toward the
creation of globally collaborative innovation network (Reference (a) above).
We believe that the advent of broadband global Internet enables the
realization of unleashing and energizing youngsters' creative minds around the
world (*) collaboratively -- which subsequently leads to the attainment of
global peace. This is to follow the precedence of Renaissance, which was
created under two distinct cultures of Christianity and Islam.
(*) There is abundant excellent brainpower in Africa, which is more valuable than
gold, diamond, crude oil, etc.
(3) We expect very exciting and productive New Year!! We look forward to
have your cooperation.
Best, Tak
ATTACHMENT
I
The Intensifying Competition for Global Innovation Leadership
Stephen Ezell - 7th January 2013
<http://www.globalpolicyjournal.com/videos/stephen-ezell-–-global-race-innovation>
Innovation—the
improvement of existing or the creation of entirely new products, processes,
services, and business or organizational models—is the central driver of
modern economic growth. For example, technological innovation has been linked
directly to three-quarters of the United StatesÕ post-World War II economic
growth rate. Innovation is key because it drives productivity
growth—increased output per unit of work—as reflected by the fact
that two-thirds of United Kingdom (UK) private-sector productivity growth between
2000 and 2007 was a result of innovation. And this drives increasing incomes;
in fact, 90 percent of the variation in the growth of income per worker across
countries is attributable to innovation.
Given innovationÕs central importance to modern economies, a fierce race for
global innovation leadership has emerged, as nations try to incubate, grow, and
attract the highest-value-added economic activity they can: the high-wage,
knowledge-intensive manufacturing, research, information technology (IT), and
services industries (and jobs) that power todayÕs global, innovation-based
economy, as the Information Technology and Innovation Foundation (ITIF) writes
in its new book Innovation Economics: The Race for Global Advantage. Indeed,
countries around the world are establishing national innovation agencies and
strategies, restructuring their tax and regulatory systems to become more
competitive, expanding support for science and technology, improving their
education systems, spurring investments in broadband and other IT platforms,
and taking a myriad of other steps to bolster their innovation capacity. This
article examines three key steps many nations have taken to turbocharge
innovation—developing national innovation agencies and strategies, investing
in research and innovation, and redesigning their tax systems to incentivize
innovation—and reflects on the implications of the race for innovation
advantage on the global economy.
WhatÕs particularly striking about the global race for innovation advantage has
been its acceleration and intensification over the past decade. Since the year
2000 alone, almost two dozen countries—developed and developing
alike—have introduced national innovation agencies and almost four dozen
have articulated national innovation strategies. These countries understand
that government can—and must—play a constructive role in helping
their private sector compete. Their innovation strategies constitute a coherent
approach that seeks to coordinate disparate policies toward scientific research,
technology commercialization, IT investments, education and skills development,
tax, trade, intellectual property (IP), government procurement, and regulatory
policies in an integrated fashion that drives economic growth by fostering
innovation. In essence, these countriesÕ innovation strategies represent a
gameplan for how their economies can compete and win in global competition.
For instance, British Prime Minister David Cameron in his Lord
Banquet speech on November 12, 2012, acknowledged that ÒBritain is in a global
race that is a moment of reckoning for every countryÓ and unabashedly called on
his country to articulate a Òmodern industrial strategyÓ to help Britain
Òcompete and winÓ in the intense global race Òfor high-knowledge, high-value goods
and jobs.Ó As is common in many countriesÕ innovation strategies, Cameron named
specific industries the UK should seek global leadership in—including
life sciences, finance, creative industries, aerospace, clean energy, and
marine technologies—and announced specific policies to turbocharge UK
competitiveness in each of those sectors. Likewise, The Swedish Innovation Strategy and the
accompanying GovernmentÕs Research and Innovation Bill introduced in
2012 call for targeted investments in Òkey areas of particular importance for
Swedish industry and societyÓ including life sciences; mining, materials, and
steel; sustainable civil engineering and urban management; and forestry.
Meanwhile, FinlandÕs National Innovation Strategy, released in
2011, focuses on six critical sectors—health care, energy and the
environment, forestry products, IT, construction, and mechanical
engineering—and GermanyÕs High-Tech Strategy (initially
released in 2006 and updated in 2010) focuses on innovation in twenty key
sectors and technologies of vital importance to the German economy, identifying
GermanyÕs strengths, weaknesses, threats, and opportunities in each industry. And ChinaÕs
Innovation 2020 strategy, announced in 2011, focuses on seven ÒstrategicÓ
sectors—nuclear fusion and nuclear-waste management, stem cells and
regenerative medicine, clean energy, materials science, IT, public health, and
the environment—in which the country seeks global leadership.
The point is that a broad range of countries have implemented aggressive
policies to ensure that they achieve or maintain innovation leadership in a
range of key high-tech, high-value added industries. And countriesÕ
well-implemented innovation strategies can be highly effective: a 2009 study by
the German Association of Chambers of Industry and Commerce found that 30
percent of all German companies attributed their successful innovations over
the prior two years Òto improved research and innovation policies at the
federal level.Ó
Another attribute of the intensifying race for global innovation advantage is
countriesÕ increased investment in research and development (R&D) and
innovation. In fact, many countries invest substantially more in innovation
than the United States on a per capita basis, and many countries have increased
their investments since the late 1990s. For example, while U.S. R&D
intensity (R&D as a share of GDP) increased by a paltry 10.4 percent from
1995 to 2008, it increased substantially more in most other nations, including
Germany (20.5 percent), Japan (26.2 percent), Korea (42.2 percent), Taiwan (61
percent), Finland (65 percent), Singapore (135.1 percent), and China (170.2
percent). Nor are countries stopping there. China plans to invest $1.5 trillion
in its seven strategic industries from 2011 to 2020. To get a sense of the
level of this investment, for the United States to match this on a per-GDP
basis, it would have to pass an American Recovery and Reinvestment Act (the
2008 Òstimulus billÓ that appropriated over $800 billion) every year for the
next five years and have all the funds (and more) go to making U.S. industries
more competitive. Meanwhile, SwedenÕs 2012 Research and Innovation bill will
provide an additional SEK 9 billion ($1.4 billion) in research and innovation
funding over baseline from 2008 to 2016, a 25 percent increase in the Swedish
governmentÕs investment in research and innovation. Meanwhile, Germany is
investing 10 percent of its GDP in R&D, innovation, and education. With
their economies performing well, forward-looking countries like Germany, China,
and Sweden are investing now to secure their innovation leadership positions in
the future.
A third salient feature of the race for global innovation advantage is
countriesÕ aggressive reform of their tax systems to incentivize innovation.
Indeed, many countries have come to recognize incentives as indispensable tools
in building global competiveness and so provide rewards ranging from grants and
tax breaks for specific corporate projects and desired behavior (e.g.,
performing R&D or investing in new equipment) to general reductions in
corporate taxes. Whether itÕs China providing tax holidays to attract a
high-tech factory, the UK introducing a so-called Òpatent box,Ó or Ireland
providing one of the lowest corporate tax rates (10 percent), many nations
actively encourage innovation and domestic investment.
Perhaps the most prominent example of this is Organization for Economic
Cooperation and Development (OECD) nationsÕ dramatic lowering of corporate tax
rates over the past three decades. Deveraux, Lockwood, and Redoano find that
OECD nationsÕ corporate tax rates declined from nearly 50 percent in the early
1980s to less than 35 percent in 2001, and that international tax competition
was the principal driver behind those reductions. By 2009, the non-U.S. OECD
rate had declined even more, to just below 30 percent. Sweden recently cut its
corporate tax rate to 22 percent (and eliminated its wealth and inheritance
taxes). Amazingly, the United States now has the highest statutory corporate tax
rate in the OECD; it being the only OECD nation in which statutory corporate
tax rates did not fall between 2000 and 2012.
Recognizing that incentives are an important driver of innovative behavior, a
number of countries have begun to offer generous (and stable) R&D tax
credits both to encourage existing companies to expand R&D activity and to
attract globally mobile R&D activity. For instance, India and France now
offer the worldÕs most generous R&D tax credits, almost six times higher
than that of the United States.22 In fact, the United States ranks just 27th
(and the United Kingdom 25th) out of 41 countries assessed by ITIF in 2012 in terms of
R&D tax credit generosity.
But not only have other nations put in place more generous research incentives,
they also have been more innovative in using novel incentives to spur research
and innovation. For example, Denmark, the Netherlands, and Norway have extended
their R&D tax credits to cover process R&D activities, effectively
extending the R&D tax credit from goods to services industries as well. And
at least nine countries—Belgium, China, France, Ireland, Luxembourg, the
Netherlands, Spain, Switzerland, and the United Kingdom—have adopted or
expanded tax incentives designed to spur the commercialization of R&D.
These incentives, or Òpatent boxesÓ (so-called because there is a box to tick on
the tax form), allow corporate income from the sale of patented products (and
in some cases from innovation-based products) to be taxed at a lower rate than
other income. Other countries, including Australia, Canada, France, Norway, and
the United Kingdom, have implemented innovative tax policies offering
preferential tax treatment to small businesses, especially those engaged in
innovative activities.
While this is just a sampling of the wide variety of policy reforms countries
have made to spur innovation in their economies, the implication is clear: the
global competition for innovation leadership is heating up. And this is a good
thing, for we envision this Òglobal race for innovation advantageÓ as one in
which virtually all nations win, with higher productivity and per-capita
incomes, new and better products and services, and a better quality of life for
all.
Indeed, the global race for innovation advantage can be one in which all people
and all countries win—but only if everyone is playing by the right set of
rules. Yet countriesÕ focus on innovation creates both global opportunities and
threats, because countries can implement their innovation strategies in either constructive
or destructive ways. Therefore, itÕs vitally important that the global policy
community ensures that countries are implementing win-win innovation policies
as opposed to zero-sum Òinnovation mercantilistÓ policies that help one country
to win at the expense of all others. In fact, we can envision a matrix (Figure
1) that categorizes countriesÕ innovation policies as are either: 1) ÒGood,Ó
benefiting the country and the world simultaneously; 2) ÒUgly,Ó benefiting the
country at the expense of other nations; 3) ÒBad,Ó appearing to be good for the
country, but actually failing to benefit either the country or the world; or 4)
ÒSelf-destructive,Ó actually failing to benefit the country but benefiting
other countries.
Figure 1: The Good, the Bad, the Ugly, and the Self-destructive
of Innovation Policy
ÒGoodÓ innovation
policies include countriesÕ increasing investments in education and scientific
research, openness to high-skill immigration, and promotion of IT deployment
and adoption. CountriesÕ Good innovation policies are positive for the world,
as discoveries, inventions, and innovations made in one nation ultimately spill
over to the benefit of citizens worldwide. CountriesÕ ÒUglyÓ policies include
those, such as currency or standards manipulation, IP theft, forced IP
transfer, or domestic sourcing of production as a condition of market access,
designed to benefit themselves to the detriment of others. ÒBadÓ policies are
those such as import substitution industrialization or restrictions on foreign
direct investment, that a country believes will help it, but that in fact do
more harm than good to a countryÕs economy. Finally, ÒSelf-destructiveÓ
innovation policies, such as the United StatesÕ turning away high-skill
immigrants or raising corporate taxes so high that multinational corporations
relocate elsewhere, are those that hurt a country while actually benefiting
others.
To be sure, there is nothing sinister about countries engaging in fierce
innovation and economic competition, and there is nothing wrong with countries
competing to win—so long as they are competing according to the rules of
international trade established by the global community. In fact, when a
country intensely competes to win, within the rules of the system, doing so
benefits both itself and the world. This is because fair competition forces
other countries to put in place the right policies on support for science and
technology transfer, the right tax policies on R&D tax credits, the right
corporate tax policies with lower tax rates, the right education policies, etc.
In other words, it promotes a positive Òrace to the topÓ that forces other
nations to ratchet up their games. The problem comes when countries start to
cheat and contravene the global economyÕs established rules. These ÒUglyÓ
practices can indeed help countries win. But not only do such policies harm
other countries, they cause the system to devolve into a competition where
every country is incented to cheat, and to beggar-thy-neighbor. And so the
overall system decays, the competition becomes worse, and the global supply of
innovation decreases.
The major challenge for the community of nations, therefore, is to create a
robust global innovation system with considerably higher rates of win-win
innovation and considerably lower rates of win-lose innovation. As ITIF argues in Reimaging
the Global Innovation Economy, to get there we need to reform a host of
global institutions—including the World Bank, the World Trade
Organization (WTO), and the International Monetary Fund (IMF)—to make
promoting sustainable, domestic-led innovation their primary activity. For
example, the IMF should tie its future financial assistance not to whether
governments cut spending to get budgets under control (its current practice),
but instead to whether they are abandoning innovation mercantilist practices
and putting in place policies to drive domestic innovation and productivity.
The World Bank needs to stop encouraging policies designed to support
countriesÕ export-led growth strategies and instead focus on boosting
productivity and innovation in the non-traded sectors of a nationÕs economy.
And the World Trade Organization needs to broaden its vision from primarily
reducing tariffs to combatting non-tariff barriers, currency manipulation, and
other innovation mercantilist practices. In summary, the global policy
community needs to work on developing a new international innovation policy
framework that will maximize the global supply of sustainable innovation and
ensure that countriesÕ competition for global innovation leadership redounds to
the benefit of all the worldÕs citizens.
Stephen Ezell is a Senior Analyst at the Information Technology and Innovation Foundation, a technology
and economic policy think tank located in Washington, DC. Stephen has also been
interviewed Global Policy's Kat Wall about his new book 'Innovation Economics'. The interview
explores why America is falling behind in innovation.
*******************************************************************************
Takeshi Utsumi, Ph.D., P.E., Chairman
GLObal Systems Analysis and Simulation Association in the U.S.A. (GLOSAS/USA)
Laureate of Lord Perry Award for Excellence in Distance Education
Founder and V.P. for Technology and Coordination of Global University System
(GUS)
43-23 Colden Street, #9L, Flushing, NY 11355-5913, U.S.A.
Tel/Fax: 718-939-0928; Skype: utsumi
Email: takutsumi0@gmail.com,
Web: http://www.friends-partners.org/GLOSAS/
U.S./IRS Employer ID: 11-2999676 <http://tinyurl.com/534gxc>
New York State Tax Exempt ID: 217837 <http://tinyurl.com/47wqbo>
Google Profiles <https://profiles.google.com/takutsumi0/about>
Facebook <http://www.facebook.com/GlobalEarlyWarningSystemsgews>
List Distribution <http://tinyurl.com/2fzx23e>
*******************************************************************************