TECHNOLOGIE-BASED COMPANIES (SPIN-OFFS) FROM THE ROVIRA I VIRGILI UNIVERSITY URV SPIN-OFFS.
The EFFECTIVENESS OF UNIVERSITY KNOWLEDGE SPILL-OVERS : PERFORMANCE DIFFERENCES BETWEEN UNIVERSITY...
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THE EFFECTIVENESS OF UNIVERSITY KNOWLEDGE SPILL-OVERS:
PERFORMANCE DIFFERENCES BETWEEN UNIVERSITY SPIN-OFFS AND CORPORATE SPIN-OFFS
Karl WennbergStockholm School of Economics & Ratio
Johan WiklundSyracuse University
Mike WrightCMBOR & EMLyon
Context
The Bayh-Dole Act of 1980
“A wealth of scientific talent at American colleges and universities – talent responsible for the development of numerous innovative scientific breakthroughs each year – is going to waste as a result of bureaucratic red tape and illogical government regulations…What sense does it make to spend billions of dollars each year on government-supported research and then prevent new developments from benefiting the American people because of dumb bureaucratic red tape?”
U.S. Senator Birch Bayh, 1980
Unversities own the Intellectual Property (IP) generated through university research
Bayh-Dole implications• Creation of Technology Transfer Offices (TTO)• Explosion of university patent activity
University Patents as a Share of All Patents with Domestic Assignees
0
0.005
0.01
0.015
0.02
0.025
0.03
0.035
0.04
University Patent Issue Year (Mowery 2005)
Sha
re %
How does knowledge spill over from universities?
Knowledge spill-over through entrepreneurship?
• AUTM reports annual mean of 426 startups from U.S. Universities, 1998-2004
• MIT TTO reported 29 startups (2001)• Stanford TTO reported 6 startups (2001)• Based on AUTM data, one startup generated
per $368 million of R&D
Broader perspective needed
Our paperHow does knowledge spill over from universities through
entrepreneurship?
Steve graduates from Stanford, works at Stanford, spins off a company
Lisa graduates from Stanford, works at Fairchild, spins off a company
To date we have focused on the Steves of the world but not the Lisas
Unfortunate
Much entrepreneurship is probably carried out by the Lisas
Even if we are mainly interested in the Steves, the Lisas provide a relevant baseline for comparison
We suggest both Steve and Lisa represent university knowledge spill-over through entrepreneurship
They differ in terms of their experience
Both Steve and Lisa hold unique knowledge that can be valuable for knowledge-intensive entrepreneurship
Ranked #1 worldwide for publications in academic entrepreneurshipWhich path to entrepreneurship is more productive?
Ranked #1 worldwide for publications in academic entrepreneurshipHow does experience inside/outside university influence subsequent spin-off performance?
Ranked #1 worldwide for publications in academic entrepreneurshipUniversity spinoffs (USOs)Corporate spinoffs (CSOs)
Individuals with University Degree
Company
Entrepreneur
Performance
University
Gap
• Academic entrepreneurship literature emphasizes venture creation– Not subsequent performance
• Little attention to indirect spillover from university to entrepreneurship– CSOs provide alternative mechanism to USOs
• Policies to stimulate USOs has not used suitable baseline• Comparison of USOs to CSOs relevant
Performance differences• Potential for successful entrepreneurship depends
on technological and market knowledge• Prior experience of customer relationships
essential to generate market knowledge– More likely in commercial environment than university
• CSOs have greater exposure to commercial interaction and thus greater market knowledge
• H1: Firms started by university graduates as commercial spin-offs perform better than firms started by university graduates as university spin-offs.
Knowledge Sources• Schooling: Increases general human capital• Prior industry experience: provides relevant product related knowledge• Previous entrepreneurial experience: Specific knowledge of running a
business• CSO founders complement university knowledge with market
knowledge unlike USO founders• Prior industry experience, schooling and entrepreneurial experience
can compensate for lack of market knowledge • This compensation more valuable to USOs than to CSOs• H2: Firms started by university graduates as university spin-offs
benefit more from the knowledge sources [a] years of education, [b] years of industry experience in the same sector, [c] years of entrepreneurial experience, than firms started by university graduates as commercial spin-offs.
Parent organizational context• We build on the spawning literature
• Examines entrepreneurship depending on parent organization characteristics
• spin-offs usually inherit both general technological and market-related knowledge from their parents
• We suggest there are important differences between university context and corporate context that influences spin-off performance
Parent organizational context• University technological knowledge broad but far from market
• Corporate technological knowledge narrow and closer to market
CSOs more affected by parent knowledge
• Universities generally bureaucratic
USOs less affected by parent organization
• Large corporations especially those with many divisions have spawnable activities that are peripheral and difficult to control and incentivize yet which may have good underlying performance prospects
• H3: Firms started by university graduates as commercial spin-offs benefit more from the spawning environments of the parent organization (size and breadth of technological knowledge) than firms started by university graduates as university spin-offs
Research design
• Symmetric data on USOs and CSOs• Follow firms from inception and onwards• Performance data that are robust across industries• Data from Sweden
– Complete data– IP remains with inventor for USOs
Data I
• Official data maintained by Statistics Sweden• Annual observations, great detail• All private incorporated companies started in Sweden
1994-2001 in knowledge-intensive sectors– Excluded other sectors and legal forms– Ensures relevance
• Match with individual data on founders• Individuals completing university degree lasting at least 3
years in any field• Worked for university or a private company at least some
time in 1993-2000• Leave employer at T and start firm at T+1
– USO if employer = university– CSO if employer = private firm
Data II
• Must hold majority stake in first year and work there full time.
• Team spinoffs require that 50% or more work at same employer at T
• Identified 528 USOs (6%), 8,663 CSOs (94%)
Dependent variable
• Three different indicators of performance– Employment growth– Sales growth– Survival [discontinued, excluding M&A]
Independent Variables
• Design allows detailed assessment of human capital– Entrepreneurial experience (team mean)– Same industry experience (team mean)– Education length (team mean)
• Parent organization– Revenues– Employment– # establishments– Share of employees with engineering degree– Share of employees with PhD
Control Variables
• Team size• Capital invested• Social capital (prior years in location where business was
started; • Industry affiliation (ISIC 3-digit level)
Industry of spinoffs Academic Spinoffs Corporate Spinoffs
Chemicals and fibre manufacturing 0.30% 0.19%
Electrical and optical equipment 2.37% 3.42%
Transport equipment 0.30% 0.12%
Networks, radio and TV 2.96% 2.27%
Finance 4.44% 4.65%
Real estate business 0.31% 12.07%
Computers/software 19.53% 16.25%
Research and Development 11.54% 1.18%
Accounting / auditing 3.25% 6.16%
Construction / engineering 5.03% 11.09%
Advertising 3.25% 7.78%
Management consulting 19.53% 14.30%
Law firms 1.18% 5.03%
Other consulting services 3.25% 6.82%
Education 13.30% 0.02%
institutions (elderly/children/care) 0.30% 1.64%
Private Health care 4.14% 5.14%
News and entertainment 5.03% 1.86%
Analyses
• Random effects generalized least squares regression for growth DVs
• Cox regression for survival
Dependent variables
Survival Emp growth Sales growth
H1 CSOs outperform USOsSupported Supported Supported
H2
(a) Education matters more for USOs not supported not supported
not supported
(b) Ind Exp matters more for USOs Supported Supported weak
support
(c) Ent Exp matters more for USOs Supported Supported Supported
H3
Employment size matters more for CSOs Supported Supported weak support
Revenue size matters more for CSOs Supported Supported Supported
# Establishments matters more for CSOs Supported Supported Supported
# Engineers matters more for CSOs weak support Supported Supported
# PhDs matters more for CSOs Supported not supported
not supported
Conclusions & Implications
• CSOs outnumber USOs 14 to 1 and perform better– Universities educate people who become entrepreneurs but mainly
indirectly– CSOs seem to be good mechanism for knowledge-intensive
entrepreneurship– Why assign policies that single out and support USOs?
• USOs benefit more from entrepreneurial and industry experience– Connecting USO entrepreneurs to experienced people could be important
task for TTO– Do TTOs have expertise to build these teams?
• Parent size has positive effect on CSO performance– Large firms seems like good seed bed for spinoffs
Policy Implications• Implications for IP policy
– Broader view of university knowledge spillover • Assist USOs in building viable teams with commercial
experience to succeed– TTO competence needs augmentation
• Wider policy debate on how knowledge spills over into new organizations– Policy support to facilitate spinning out from established
organizations?
Policy Implications• Why exclusive policy focus on entrepreneurs who work at
universities? – Realizing growth among knowledge-intensive firms involves general
problems that apply to the whole population of spinoffs– Policy favoring the establishment of growth-oriented entrepreneurship
in general, not just USOs?