02 NS and the Overall National Context of
Transcription
02 NS and the Overall National Context of
PRIMER ON R&D Canada and Nova Scotia in a Global Context Presentation to One Nova Scotia Coalition By Peter Nicholson May 19, 2015 OUTLINE MOTIVATION CANADIAN R&D IN A GLOBAL CONTEXT NOVA SCOTIA’S R&D IN A CANADIAN CONTEXT DISRUPTING OUR LOW-INNOVATION EQUILIBRIUM WHAT ROLE FOR PUBLIC POLICY ? WHAT IS R&D AND WHY DOES IT MATTER The term “R&D”, and its statistical measurement, encompass three broad activities: BASIC RESEARCH—acquisition of new knowledge without a specific application in view APPLIED RESEARCH—acquisition of new knowledge relevant to a specific “practical” objective EXPERIMENTAL DEVELOPMENT—application of existing knowledge to create or improve products or processes How R&D Contributes to Growth and Prosperity Breakthroughs R&D Innovative activities Competitiveness Growth & Prosperity Steady Improvements R&D INTENSITY CORRELATES BROADLY WITH ECONOMIC DYNAMISM CANADA’S R&D EXPENDITURE IN A GLOBAL CONTEXT TOTAL R&D AS PERCENT OF GDP--2013 4.5 CANADA RELATIVE TO 20 PEER COUNTRIES 4 Percent of GDP 3.5 3 2.5 Total R&D Percent of Ave Rank 67% 16/20 Higher Ed R&D 151% 6/20 Government R&D 56% 14/20 Business R&D 50% 17/20 2 1.5 1 0.5 0 CANADA’S RELATIVE POSITION HAS DETERIORATED SINCE THE EARLY 2000s EVOLUTION OF CANADIAN R&D AS % OF GDP 1.2% Business Per Cent GDP 1.0% ABSOLUTE $ CHANGE IN R&D: 2011-2014 (%) 0.8% Higher Education TOTAL -2.9% Federal -13.0% Business -6.9% Higher Ed +4.5% 0.6% 0.4% Federal Government 0.2% 0.0% 2004 2006 2008 2010 2012 2014 THESE TRENDS ARE INCONSISTENT WITH THE NEEDS OF A 21ST CENTURY ECONOMY EXPLAINING CANADA’S BUSINESS R&D “GAPS” Business Expenditure on R&D (BERD) as Percent of GDP 2.5 Gap relative to US is due to much higher BERD intensity of US Mfg. sector USA 2.0 Decline since 2001 due principally to reduction in Manufacturing’s share of Canada’s economy. 1.5 1.0 End of tech boom and decline of telecom equipment sector CANADA 0.5 0.0 1981 1986 1991 1996 2001 2006 2011 MACRO AND STRUCTURAL FACTORS HAVE BEEN MORE POWERFUL THAN POLICY STIMULUS COMPONENTS OF N.S. BUSINESS R&D NS BUSINESS R&D BY SECTOR : 2009-13 60 Manufacturing 50 $ Million 40 Services 30 20 Other 10 0 2009 2010 2011 2012 2013 AS MANUFACTURING HAS DECLINED, R&D IN SERVICES HAS NOT BEEN MAKING UP R&D PERFORMANCE SUMMARY: NS VS. CANADA 2012 Data TOTAL R&D ($B) Growth Rate 2008-12 Canada $31.30 0.5% Nova Scotia NS Rank $0.50 7th -1.1% 8th Top Rank ON $14.2 NF 8.8% As a Percent GDP Total R&D Business R&D Higher Educ. R&D Government R&D 1.71% 0.88% 0.66% 0.16% 1.32% 0.21% 0.98% 0.13% 4th 10th 1st 5th QU 2.27% QU 1.31% NS 0.98% ON 0.27% Percent performed by Business Higher Education Province 51.6% 38.6% 1.1% 16.1% 74.4% 0.0% 10th 1st 10th QU 57.8% NS 74.4% AB 4.0% Percent funded by Provincial government Federal government 6.5% 19.1% 3.2% 31.2% 9th 2nd NF 11.0% PEI 42.9% FOR R&D….NOVA SCOTIA IS TO CANADA AS CANADA IS TO THE WORLD CANADIAN BUSINESS STRATEGIES DO NOT FOCUS ON INNOVATION Canada has benefited from unique adjacency to the 20th century’s technological and economic leader Canadian industry thus carved profitable niches in integrated, U.S.-dominated value networks Complementary Business Strategies US: Full-spectrum, end-userfocussed innovation strategies Canada: Truncated, branchplant innovation strategies Resource extraction Processing Assembly Marketing Sophisticated end products HAS ALWAYS BEEN EASIER AND CHEAPER TO GET “INNOVATION” FROM THE U.S. DISRUPTING THE LOW-INNOVATION EQUILIBRIUM NEW MARKETS More opportunity, More competition RESOURCE CHALLENGE Sustainability, Volatility, Substitutes NEW INNOVATION IMPERATIVE NEW TECHNOLOGIES ICT, Nano, Bio,… Disruption AGEING POPULATION Labour shortages, Productivity necessary BUT… SHOCKS ARE USUALLY NEEDED TO CHANGE ENTRENCHED BEHAVIOUR WHAT ROLE FOR PUBLIC POLICY? The four disruptive megatrends will force business to be more innovative…or else! The right policies can make the transformation faster, and of greater benefit for society. KEY ELEMENTS OF AN INNOVATION POLICY STRATEGY Allocate resources strategically to areas of strength, need, and global opportunity tough analysis and a willingness to focus Build on Nova Scotia’s demonstrated university research strength with targeted initiatives in areas of exceptional economic opportunity—e.g., marine bio- and IT-related technologies; opportunities from the Irving contracts; viticulture; clean sustainable aquaculture…. Harvest the best ideas by engaging at the political and officials levels with the world…Travel. (Re)build analytic and economic policy capacity inside government. Commit to sustained collaboration across ministries, among governments and with academia and business…A rising tide will lift all boats! PRIORITY FROM THE TOP AND A SUSTAINED COMMITMENT ARE SINE QUA NONS ANNEX SUPPLEMENTARY SLIDES FUNDING R&D IN N.S. AND CANADA FUNDING BUSINESS R&D IN N.S. AND CANADA FUNDING HIGHER ED. R&D IN N.S. AND CANADA 60% 100% N.S. N.S 50% 80% Can TOTALS (2012) 40% Nova Scotia Canada $374 M $12,099 M 30% 20% TOTALS (2012) %Provided by Funder % Provided by Funder Can Nova Scotia $81 M Canada $16,153 M 60% 40% 20% 10% 0% 0% Higher Ed. Fed. Govt. Business Provinces Non-Profit Funding Entity Business Foreign Fed Gov Provinces Funding Entity AMONG PROVINCES, N.S. FUNDS A MUCH SMALLER SHARE OF HIGHER ED R&D THAN AVERAGE ECONOMIC POLICY PARADIGM IN TRANSITION End of the Golden Era Mid 1970s “Neoliberal Consensus” 1980—Mid 2000s Productivity growth collapses in OECD countries “Market knows best” Rise of China et al Trade liberalization Growing income inequality Deficits become endemic Tax cuts/fiscal probity Financial crisis: 2007-09 Business subsidies cut Global Commons issues (e.g., climate change) Stagflation undermines faith in the Keynesian paradigm End of Market Fundamentalism Mid 2000s—Present Tax-based incentives Government science de-emphasized Search for a new, pragmatic microeconomic policy paradigm Microeconomic policy capacity eroded POLICY PARADIGM FOR THE NEW ERA—A WORK IN PROGRESS A PROFITABLE LOW-INNOVATION EQUILIBRIUM From the Lamontagne Report on Science Policy (1970) “Since 1916…the main objective of Canadian science policy has been to promote technological innovation in industry….Almost every decade since the 1920s has witnessed renewed attempts by successive Canadian governments to achieve it, but on the whole they have all failed” Canadian business has been as innovative as it has needed to be. Corporate profit margins, in aggregate, have long matched or exceeded those in the US … So where is the motivation to change? Strong job growth has offset the impact on per capita GDP of poor productivity, and a weak $C made productivity growth less urgent When the $C strengthened after 2002, putting heavy pressure on manufacturers, a commodity boom mitigated the overall impact, despite regional strains…But what now? BUSINESS STRATEGY WILL NOT CHANGE UNLESS THE SUCCESS FACTORS CHANGE DETERMINANTS OF INNOVATION ECOSYSTEM BEHAVIOUR Below are arrayed the principal elements of the innovation ecosystem which, through the interaction of supply and demand conditions, determine the extent to which an enterprise (public or private sector) undertakes innovation in support of its objectives (e.g., sales growth, profitability, fulfillment of mandate). Public policies are not explicitly represented in the “model” but they are assumed to promote or inhibit enterprise innovation primarily through their impact on certain of the Supply and Demand conditions. SUPPLY CONDITIONS Availability of: Entrepreneurs Qualified People Risk Capital Natural resources Enterprise Supports INNOVATION-RELATED ACTIVITIES In support of enterprise objectives: Employ/train skilled people Acquire/deploy advanced equipment Invest in advanced “intangibles” Adopt/adapt (global) best practices DEMAND CONDITIONS Prevalence of: Competition Market Opportunities Demanding Customers Regulation Entrepreneurial management is almost always associated with innovation. It can be developed through education/experience or (more often) attracted by opportunity. Qualified people are the main vectors by which innovative ideas/methods are transferred into and applied within the enterprise. Innovation involves novelty, thus creating uncertainty and requiring investment before the payoff occurs. The supply of risk capital depends on the presence of opportunities whose risks are familiar to the relevant investors—e.g. resource and real estate plays in Canada Natural resource abundance can create opportunities, through innovation, to upgrade and to develop (local ) ecosystems to support the sector (e.g. technical, environmental and financial specialization). But resource-based prosperity can “trap” an economy at the commodity end of the value chain by reducing the necessity to innovate. “Enterprise supports “ are the nutrients of the ecosystem. They include professional services (e.g. consulting, legal, financial, advertizing) and a great variety of publicly-provided support including infrastructure; education and research; incubators; financing/subsidies. Competition generates the necessity that is very often the “mother of innovation”. It stimulates competitive fitness. Market opportunity is the flip side of the challenge of competition. The larger the market opportunity, the more likely that an enterprise will accept the risk of innovation—hence the importance of export market development as a spur to innovation. Procurement, if focused on innovative products, can create new market opportunity and is thus a direct way in which public policy can promote innovation. Demanding customers, in the context of a competitive environment, provide the incentive to innovate and potential partners in the activity. Regulation can impede innovation by protecting vested interests, or curtailing experimentation, or imposing costs that impair competitiveness. Or it can foster innovation by setting challenging requirements that force an innovative response. Advanced intangibles include R&D, data and analysis, marketing, organizational development. They are hallmarks of “knowledge intensity” The great majority of innovation occurs through application of new or better methods developed outside the enterprise. An innovation is thus typically “first in enterprise” rather than “first in world”. Adopt and adapt is the principal channel by which innovation affects the economy and society. CONVERTING “RESEARCH” INTO “INNOVATION” Trained People; Promising Ideas; Consultation Tech Transfer Offices Universities & Colleges Public Research Facilities Commercial Businesses Extension Services (e.g. IRAP) Incubators Angels and VCs Basic Research Knowledge Transfer & Mobilization (Innovation Intermediaries) Development & Marketing NEED MORE BUSINESS ‘DEMAND-PULL’ TO COMPLEMENT ‘RESEARCH-PUSH’ Degree of Focus Degree of Focus Research Problem Identification THE CHALLENGE OF MULTI-INSTITUTIONAL COLLABORATION UNIVERSITIES Research Motivation Create and share knowledge TRANSLATION & MOBILIZATION Ideas to Innovation BUSINESSES Use and control knowledge Time Horizon Mid-to-Long Variable Short-to-Mid Individual Rewards/ Incentives Tenure, promotion and professional recognition Variable (Major challenge for organizational design) Money and authority in the firm Ranges from bureaucratic to entrepreneurial Goal-focused, organizationallytight Institutional Temperament Institutional continuity, organizationally-loose ORGANIZATIONAL INNOVATION NEEDED TO MELD CULTURES AND INCENTIVES