Science, Technology and Industry Scoreboard 2017, OECD

Page created: Thursday, 23 November 2017 11:17GMT

Report:  23 November 2017 - 224 Page(s)
Tags:

The OECD Science, Technology and Industry Scoreboard 2017 draws on the latest internationally
comparable data to uncover the strengths of the OECD and other leading economies, and shows how
the digital transformation is affecting science, innovation, the economy, and the way people work and
live. It aims to help governments design more effective science, innovation and industry policies in
the fast-changing digital era.
It features indicators traditionally used to monitor developments in science, technology, innovation
and industry, and complements them with new and experimental indicators that provide new insights
into areas of policy interest.
The aim of the STI Scoreboard is not to “rank” countries or develop composite indicators. Instead,
its objective is to provide policy makers and analysts with the means to compare economies with
others of a similar size or with a similar structure and to monitor progress towards desired national
or supranational policy goals. It draws on OECD efforts to build data infrastructure to link actors,
outcomes and impacts, and highlights the potential and limits of certain metrics, as well as indicating
directions for further work.
Indicators are pointers; they do not address causal relationships. Moreover, the validity of a
set of indicators depends on its use. The selected indicators have been developed with the following
criteria in mind:
●● Indicators should be based on high-quality statistics and robust analytical principles and be
measurable internationally, over time and with prospects of improvement.
●● Indicators should be relevant, particularly for decision makers.
●● Experimental indicators that complement more established ones should bring new perspectives
and advance the measurement agenda. They should help to stimulate policy debates and uncover
new dynamics.
The first chapter, Knowledge economies and the digital transformation, provides a broad
overview. Trends in science, innovation and growth are presented in the context of today’s fast-changing
digital technology landscape. Section 1, “Science, innovation and the digital revolution”, presents the
latest developments and the top players in artificial intelligence (AI) and other breakthrough ICT
technologies, and examines the overall science landscape and the concentration of business R&D.
Section 2, “Growth, jobs and the digital transformation”, provides insights into countries’ participation
in global value chains, in particular ICT global production networks, explores the changing nature of
jobs, and presents the knowledge-based assets at the heart of innovation and productivity. Section 3,
“Innovation today: Taking action”, offers evidence in support of actions to address digital divides and
foster innovation and entrepreneurship.
Five thematic chapters focus on key areas of policy interest:
●● Knowledge, talent and skills examines the knowledge assets that many firms and governments
view as current and future sources of long-term sustainable growth. It provides metrics of
knowledge-based capital, such as formal and on-the-job training and organisational assets, both
4
FOREWORD
OECD SCIENCE, TECHNOLOGY AND INDuSTRY SCOREBOARD 2017: THE DIGITAL TRANSFORMATION © OECD 2017
in the market and non-market sector. Skills required for the new working environment shaped by
ICTs, as well as returns to ICT skills, are analysed through a new set of indicators.
●● Research excellence and collaboration helps to inform the policy debate with a set of metrics on
the variety and nature of mechanisms for knowledge diffusion in the age of digitalisation. It points
to the research performance of countries that follow different paths of scientific specialisation, the
international mobility of highly skilled individuals, innovation across borders and collaboration
among firms in innovation processes.
●● Innovation in firms explores the dynamism of the business sector and framework conditions crucial
for innovation. It examines sectoral R&D patterns and intellectual property bundles with a focus
on firms’ joint use of ICT patents, trademarks and industrial designs to protect their innovations.
Estimates of R&D tax incentives are combined with direct funding of R&D to provide a more complete
picture of government efforts to promote business R&D, while innovation survey data allow an
analysis of the participation of innovative firms in public procurement markets.
●● Leadership and competitiveness investigates how countries seek to build their competitive
strengths and the extent to which economies are successful in integrating and specialising along
global value chains. It assesses indicators on R&D specialisation, technological advantages and
relative strengths, and e-business uptake in firms and sectors together with start-up dynamics in
ICT sectors vis-à-vis the rest of the economy. Indicators building on the OECD-WTO Trade in Value
Added (TiVA) database shed light on economies’ participation in global trade and value chains,
and the implications for jobs and consumers everywhere.
●● Society and the digital transformation uses metrics that focus on digital inclusiveness to help
inform the policy debate. A set of key indicators is used to examine individuals’ access to and use
of technologies from an early age, the level of sophistication of users, and their role as e-consumers
and e-citizens. Finally, a series of indicators on trust shed some light on firms and individuals’
security and privacy concerns in an increasingly digitised world.
The main audience of the STI Scoreboard is policy analysts with a good understanding of the
use of indicators and those engaged in producing indicators for analytical or policy-making purposes.
A few paragraphs introduce each indicator and offer some interpretation. Accompanying boxes
entitled “Definitions”, “Measurability” and “Did you know?” provide detail on the methodologies used,
summarise measurement gaps, challenges and recent initiatives, and draw attention to interesting
facts or figures based on the findings of the five thematic chapters.
All charts and underlying data can be downloaded via the StatLinks (hyperlink to a webpage).
Additional data that expand the coverage of countries and time periods are available at the same
links. Several thematic briefs and country notes, as well as online tools to visualise indicators and help
users develop analyses based on their own interests, are available from the STI Scoreboard website
(www.oecd.org/sti/scoreboard.htm).

Read the country report here: http://www.oecd.org/portugal/sti-scoreboard-2017-portugal.pdf



Original title:  Science, Technology and Industry Scoreboard 2017, OECD