Innovation, localized knowledge spillovers, and the...
Transcript of Innovation, localized knowledge spillovers, and the...
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Innovation, localized knowledge spillovers, and
the British Industrial Revolution, 1700–1850
Ugo Gragnolati 1 Alessandro Nuvolari 2
July 27, 2018
1Centre d’Economie de la Sorbonne, Paris.
2Sant’Anna School of Advanced Studies, Pisa.
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Introduction
Introduction
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Introduction
Spatially localized efficiency gains
Allen (2009), Figure 6.4. Allen (2009), Figure 8.
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Introduction
Spatially localized efficiency gains
Allen (2009), Figure 6.4.
Allen (2009), Figure 8.
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Introduction
Spatially localized efficiency gains
Allen (2009), Figure 6.4. Allen (2009), Figure 8.
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Introduction
Knowledge Access Institutions (KAIs)
Meisenzahl & Mokyr (2010): The 759 key inventors of the Indus-
trial Revolution are argued to be crucially connected via scientific
societies and publication activities enhancing the dissemination of
“useful knowledge”.
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Introduction
Knowledge Access Institutions (KAIs)
Meisenzahl & Mokyr (2010): The 759 key inventors of the Indus-
trial Revolution are argued to be crucially connected via scientific
societies and publication activities enhancing the dissemination of
“useful knowledge”.
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Introduction
Mokyr (2009): Codified and tacit knowledge
“Mokyr’s own view of the matter seems to be that tacit knowledge
was quickly incorporated into the canon of encoded and stored
knowledge thanks to the Industrial Enlightenment and as a result
the all-important data on which technological progress was predi-
cated could easily move across boundaries and national frontiers”.
– Peter Jones (2008). Industrial Enlightenment. Science, technol-
ogy, and culture in Birmingham and the West Midlands, 1760–1820.
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Introduction
Our proposal
County-level patent data with quality indicator
(Nuvolari and Tartari, 2011)
+
Discrete choice model with localized externalities
(Bottazzi and Secchi 2007, Bottazzi and Gragnolati, 2015)
= Insights on the nature of innovation during the IR
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Introduction
Our proposal
County-level patent data with quality indicator
(Nuvolari and Tartari, 2011)
+
Discrete choice model with localized externalities
(Bottazzi and Secchi 2007, Bottazzi and Gragnolati, 2015)
= Insights on the nature of innovation during the IR
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Data and descriptive statistics
Data and descriptive statistics
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Data and descriptive statistics
Inventive activities and patents: A premise
• The localization of inventive activities is identified by the
address of the inventor/patentee.
• There is innovation also outside the patent system (MacLeod,
1988; Nuvolari, 2004; Moser 2005).
• Non patented inventions are more likely to be localized
(Moser, 2011; Nuvolari, 2004).
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Data and descriptive statistics
Inventive activities and patents: A premise
• The localization of inventive activities is identified by the
address of the inventor/patentee.
• There is innovation also outside the patent system (MacLeod,
1988; Nuvolari, 2004; Moser 2005).
• Non patented inventions are more likely to be localized
(Moser, 2011; Nuvolari, 2004).
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Data and descriptive statistics
Inventive activities and patents: A premise
• The localization of inventive activities is identified by the
address of the inventor/patentee.
• There is innovation also outside the patent system (MacLeod,
1988; Nuvolari, 2004; Moser 2005).
• Non patented inventions are more likely to be localized
(Moser, 2011; Nuvolari, 2004).
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Data and descriptive statistics
Inventive activities and patents: A premise
• The localization of inventive activities is identified by the
address of the inventor/patentee.
• There is innovation also outside the patent system (MacLeod,
1988; Nuvolari, 2004; Moser 2005).
• Non patented inventions are more likely to be localized
(Moser, 2011; Nuvolari, 2004).
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Data and descriptive statistics
Sources
variable by county years available source
Patents and/or inventors 1698–1850 [Nuvolari and Tartari(2011)]
Population 1698–1850 [HCPP(1831), HCPP(1851), Kyd(1952), Wrigley(2007)]
Urbanization rate 1698–1850 [Bairoch et al.(1988)Bairoch, Batou, and Chevre]
Core KAIs 1698–1850 [Dowey(2017)]
High-quality inventors 1698–1850 Own elaboration
Coal output 1698–1850 [Nuvolari and Tartari(2011)]
Distance from London (km) Fixed Own elaboration
Employment by industry 1841; 1851 [CAMPOP(2009)]
Coverage: The analysis regards 13,630 inventors, amounting to 90% of all patents filed in England and Wales
over the span 1617–1850. Inventions are classified in 22 industries following Nuvolari and Tartari (2011). Spatial
units consist of 85 historic counties covering the whole of Great Britain.
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Data and descriptive statistics
Sources
variable by county years available source
Patents and/or inventors 1698–1850 [Nuvolari and Tartari(2011)]
Population 1698–1850 [HCPP(1831), HCPP(1851), Kyd(1952), Wrigley(2007)]
Urbanization rate 1698–1850 [Bairoch et al.(1988)Bairoch, Batou, and Chevre]
Core KAIs 1698–1850 [Dowey(2017)]
High-quality inventors 1698–1850 Own elaboration
Coal output 1698–1850 [Nuvolari and Tartari(2011)]
Distance from London (km) Fixed Own elaboration
Employment by industry 1841; 1851 [CAMPOP(2009)]
Coverage: The analysis regards 13,630 inventors, amounting to 90% of all patents filed in England and Wales
over the span 1617–1850. Inventions are classified in 22 industries following Nuvolari and Tartari (2011). Spatial
units consist of 85 historic counties covering the whole of Great Britain.
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Data and descriptive statistics
Inventors by county, 1698–1850
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Data and descriptive statistics
Evolution of spatial distributions – Aggregate
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Data and descriptive statistics
Evolution of spatial distributions – Industry level
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Data and descriptive statistics
Woodcroft Reference Index (WRI)
Index entry for Watt’s separate condenser.
Each patent is associated to a WRI, which we normalize by time-
period average. More about Woodcroft and patents
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Data and descriptive statistics
Woodcroft Reference Index (WRI)
Index entry for Watt’s separate condenser.
Each patent is associated to a WRI, which we normalize by time-
period average. More about Woodcroft and patents
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Data and descriptive statistics
Importance of patent quality and industry
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Data and descriptive statistics
Importance of patent quality and industry
Generic patents.
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Data and descriptive statistics
Importance of patent quality and industry
Generic patents. High quality patents.
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Model and estimation
Model and estimation
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Model and estimation
Disentangling localization externalities from intrinsic features
t = 0 t = 10 t = 100
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Model and estimation
Disentangling localization externalities from intrinsic features
t = 0 t = 10 t = 100
t = 0 t = 10 t = 100
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Model and estimation
Disentangling localization externalities from intrinsic features
t = 0 t = 10 t = 100
t = 0 t = 10 t = 100
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Model and estimation
Disentangling localization externalities from intrinsic features
t = 0 t = 10 t = 100
t = 0 t = 10 t = 100
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Model and estimation
A localization model
N agents are spread across L locations according to the occupancy
vector n = (n1, . . . , nL). Location are characterized by the generic
attractiveness c = (c1, . . . , cL).
An agent drawn at random retires from location m, while a new
agent enters the economy. The new agent selects location l with
probability
pl =cl∑Lj=1 cj
. (1)
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Model and estimation
A localization model
N agents are spread across L locations according to the occupancy
vector n = (n1, . . . , nL).
Location are characterized by the generic
attractiveness c = (c1, . . . , cL).
An agent drawn at random retires from location m, while a new
agent enters the economy. The new agent selects location l with
probability
pl =cl∑Lj=1 cj
. (1)
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Model and estimation
A localization model
N agents are spread across L locations according to the occupancy
vector n = (n1, . . . , nL). Location are characterized by the generic
attractiveness c = (c1, . . . , cL).
An agent drawn at random retires from location m, while a new
agent enters the economy. The new agent selects location l with
probability
pl =cl∑Lj=1 cj
. (1)
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Model and estimation
A localization model
N agents are spread across L locations according to the occupancy
vector n = (n1, . . . , nL). Location are characterized by the generic
attractiveness c = (c1, . . . , cL).
An agent drawn at random retires from location m, while a new
agent enters the economy.
The new agent selects location l with
probability
pl =cl∑Lj=1 cj
. (1)
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Model and estimation
A localization model
N agents are spread across L locations according to the occupancy
vector n = (n1, . . . , nL). Location are characterized by the generic
attractiveness c = (c1, . . . , cL).
An agent drawn at random retires from location m, while a new
agent enters the economy. The new agent selects location l with
probability
pl =cl∑Lj=1 cj
. (1)
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Model and estimation
Linear externalities
The attractiveness cl of a location is composed of two terms: one
captures the intrinsic features of the location and another estab-
lishes an interaction among agents. Assuming a linear shape for
the latter, one has
cl = al + bnl , al > 0 ∀l , b ≥ 0 . (2)
If b > 0, we refer to the effect of bnl as localized externalities.
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Model and estimation
Linear externalities
The attractiveness cl of a location is composed of two terms: one
captures the intrinsic features of the location and another estab-
lishes an interaction among agents.
Assuming a linear shape for
the latter, one has
cl = al + bnl , al > 0 ∀l , b ≥ 0 . (2)
If b > 0, we refer to the effect of bnl as localized externalities.
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Model and estimation
Linear externalities
The attractiveness cl of a location is composed of two terms: one
captures the intrinsic features of the location and another estab-
lishes an interaction among agents. Assuming a linear shape for
the latter, one has
cl = al + bnl , al > 0 ∀l , b ≥ 0 . (2)
If b > 0, we refer to the effect of bnl as localized externalities.
15/30
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Model and estimation
Linear externalities
The attractiveness cl of a location is composed of two terms: one
captures the intrinsic features of the location and another estab-
lishes an interaction among agents. Assuming a linear shape for
the latter, one has
cl = al + bnl , al > 0 ∀l , b ≥ 0 . (2)
If b > 0, we refer to the effect of bnl as localized externalities.
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Model and estimation
Polya vs. Multinomial
The system converges to a different long-run distribution π(n; a, b)
depending on the value of b.
pl =cl∑Lj=1 cj
cl = al + bnl a > 0, b ≥ 0
Polya distribution Multinomial distribution
π(n; a, b) =N!Γ(A/b)Γ(A/b+N)
∏Ll=1
1nl !
Γ(al/b+nl )
Γ(al/b)π(n; a, b = 0) = N!
∏Ll=1
1nl !
(alA
)nl
b > 0 b = 0
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Model and estimation
Polya vs. Multinomial
The system converges to a different long-run distribution π(n; a, b)
depending on the value of b.
pl =cl∑Lj=1 cj
cl = al + bnl a > 0, b ≥ 0
Polya distribution Multinomial distribution
π(n; a, b) =N!Γ(A/b)Γ(A/b+N)
∏Ll=1
1nl !
Γ(al/b+nl )
Γ(al/b)π(n; a, b = 0) = N!
∏Ll=1
1nl !
(alA
)nl
b > 0 b = 0
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Model and estimation
Polya vs. Multinomial
The system converges to a different long-run distribution π(n; a, b)
depending on the value of b.
pl =cl∑Lj=1 cj
cl = al + bnl a > 0, b ≥ 0
Polya distribution Multinomial distribution
π(n; a, b) =N!Γ(A/b)Γ(A/b+N)
∏Ll=1
1nl !
Γ(al/b+nl )
Γ(al/b)π(n; a, b = 0) = N!
∏Ll=1
1nl !
(alA
)nl
b > 0 b = 0
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Model and estimation
Polya vs. Multinomial
The system converges to a different long-run distribution π(n; a, b)
depending on the value of b.
pl =cl∑Lj=1 cj
cl = al + bnl a > 0, b ≥ 0
Polya distribution Multinomial distribution
π(n; a, b) =N!Γ(A/b)Γ(A/b+N)
∏Ll=1
1nl !
Γ(al/b+nl )
Γ(al/b)π(n; a, b = 0) = N!
∏Ll=1
1nl !
(alA
)nl
b > 0 b = 0
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Model and estimation
Polya vs. Multinomial
The system converges to a different long-run distribution π(n; a, b)
depending on the value of b.
pl =cl∑Lj=1 cj
cl = al + bnl a > 0, b ≥ 0
Polya distribution Multinomial distribution
π(n; a, b) =N!Γ(A/b)Γ(A/b+N)
∏Ll=1
1nl !
Γ(al/b+nl )
Γ(al/b)π(n; a, b = 0) = N!
∏Ll=1
1nl !
(alA
)nl
b > 0 b = 0
16/30
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Model and estimation
Alternative scenarios
17/30
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Model and estimation
Deriving pl
Define xl = (x1l , . . . , x
Hl ) variables that describe the intrinsic attrac-
tiveness of locations, so that al = gl(β, xl) or alb = gl(β, xl).
The unknown parameters β can then be estimated by maximum
likelihood, thus obtaining gl(β, xl).
Hence, proceeding by substitution:
pl =cl∑Lj cj
=al + bnl∑Lj aj + bnj
=alb + nl∑Lj
ajb + bnj
=gl(β, xl) + nl
G + N
where G =∑
l gl(β, xl).
18/30
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Model and estimation
Deriving pl
Define xl = (x1l , . . . , x
Hl ) variables that describe the intrinsic attrac-
tiveness of locations, so that al = gl(β, xl) or alb = gl(β, xl).
The unknown parameters β can then be estimated by maximum
likelihood, thus obtaining gl(β, xl).
Hence, proceeding by substitution:
pl =cl∑Lj cj
=al + bnl∑Lj aj + bnj
=alb + nl∑Lj
ajb + bnj
=gl(β, xl) + nl
G + N
where G =∑
l gl(β, xl).
18/30
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Model and estimation
Deriving pl
Define xl = (x1l , . . . , x
Hl ) variables that describe the intrinsic attrac-
tiveness of locations, so that al = gl(β, xl) or alb = gl(β, xl).
The unknown parameters β can then be estimated by maximum
likelihood, thus obtaining gl(β, xl).
Hence, proceeding by substitution:
pl =cl∑Lj cj
=al + bnl∑Lj aj + bnj
=alb + nl∑Lj
ajb + bnj
=gl(β, xl) + nl
G + N
where G =∑
l gl(β, xl).
18/30
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Model and estimation
Deriving pl
Define xl = (x1l , . . . , x
Hl ) variables that describe the intrinsic attrac-
tiveness of locations, so that al = gl(β, xl) or alb = gl(β, xl).
The unknown parameters β can then be estimated by maximum
likelihood, thus obtaining gl(β, xl).
Hence, proceeding by substitution:
pl =cl∑Lj cj
=al + bnl∑Lj aj + bnj
=alb + nl∑Lj
ajb + bnj
=gl(β, xl) + nl
G + N
where G =∑
l gl(β, xl).
18/30
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Model and estimation
Deriving pl
Define xl = (x1l , . . . , x
Hl ) variables that describe the intrinsic attrac-
tiveness of locations, so that al = gl(β, xl) or alb = gl(β, xl).
The unknown parameters β can then be estimated by maximum
likelihood, thus obtaining gl(β, xl).
Hence, proceeding by substitution:
pl =cl∑Lj cj
=al + bnl∑Lj aj + bnj
=alb + nl∑Lj
ajb + bnj
=gl(β, xl) + nl
G + N
where G =∑
l gl(β, xl).
18/30
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Model and estimation
Deriving pl
Define xl = (x1l , . . . , x
Hl ) variables that describe the intrinsic attrac-
tiveness of locations, so that al = gl(β, xl) or alb = gl(β, xl).
The unknown parameters β can then be estimated by maximum
likelihood, thus obtaining gl(β, xl).
Hence, proceeding by substitution:
pl =cl∑Lj cj
=al + bnl∑Lj aj + bnj
=alb + nl∑Lj
ajb + bnj
=gl(β, xl) + nl
G + N
where G =∑
l gl(β, xl).
18/30
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Model and estimation
Deriving pl
Define xl = (x1l , . . . , x
Hl ) variables that describe the intrinsic attrac-
tiveness of locations, so that al = gl(β, xl) or alb = gl(β, xl).
The unknown parameters β can then be estimated by maximum
likelihood, thus obtaining gl(β, xl).
Hence, proceeding by substitution:
pl =cl∑Lj cj
=al + bnl∑Lj aj + bnj
=alb + nl∑Lj
ajb + bnj
=gl(β, xl) + nl
G + N
where G =∑
l gl(β, xl).
18/30
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Model and estimation
Deriving pl
Define xl = (x1l , . . . , x
Hl ) variables that describe the intrinsic attrac-
tiveness of locations, so that al = gl(β, xl) or alb = gl(β, xl).
The unknown parameters β can then be estimated by maximum
likelihood, thus obtaining gl(β, xl).
Hence, proceeding by substitution:
pl =cl∑Lj cj
=al + bnl∑Lj aj + bnj
=alb + nl∑Lj
ajb + bnj
=gl(β, xl) + nl
G + N
where G =∑
l gl(β, xl).
18/30
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Model and estimation
Effect of xh and n on pl
The marginal elasticity associated to an intrinsic advantage:
∂p
∂ log xh=
L∑l=1
∂pl∂ log xhl
.
The marginal elasticity associated to localization externalities:
∂p
∂ log n=
L∑l=1
∂pl∂ log nl
.
Since pl is bounded from above, we compute the effects on the
transformation ql = − log(1− pl).
19/30
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Model and estimation
Effect of xh and n on pl
The marginal elasticity associated to an intrinsic advantage:
∂p
∂ log xh=
L∑l=1
∂pl∂ log xhl
.
The marginal elasticity associated to localization externalities:
∂p
∂ log n=
L∑l=1
∂pl∂ log nl
.
Since pl is bounded from above, we compute the effects on the
transformation ql = − log(1− pl).
19/30
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Model and estimation
Effect of xh and n on pl
The marginal elasticity associated to an intrinsic advantage:
∂p
∂ log xh=
L∑l=1
∂pl∂ log xhl
.
The marginal elasticity associated to localization externalities:
∂p
∂ log n=
L∑l=1
∂pl∂ log nl
.
Since pl is bounded from above, we compute the effects on the
transformation ql = − log(1− pl).
19/30
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Model and estimation
Effect of xh and n on pl
The marginal elasticity associated to an intrinsic advantage:
∂p
∂ log xh=
L∑l=1
∂pl∂ log xhl
.
The marginal elasticity associated to localization externalities:
∂p
∂ log n=
L∑l=1
∂pl∂ log nl
.
Since pl is bounded from above, we compute the effects on the
transformation ql = − log(1− pl).
19/30
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Model and estimation
Model selection
The two models can be compared with the Akaike Information
Criterion corrected by finite sample size:
AICc = 2k − 2 ln(`) +2k(k + 1)
L− k − 1,
where L is the sample size, k is the number of parameters in each
model, and ` is the maximized value of the likelihood function.
20/30
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Model and estimation
Model selection
The two models can be compared with the Akaike Information
Criterion corrected by finite sample size:
AICc = 2k − 2 ln(`) +2k(k + 1)
L− k − 1,
where L is the sample size, k is the number of parameters in each
model, and ` is the maximized value of the likelihood function.
20/30
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Model and estimation
Model selection
The two models can be compared with the Akaike Information
Criterion corrected by finite sample size:
AICc = 2k − 2 ln(`) +2k(k + 1)
L− k − 1,
where L is the sample size, k is the number of parameters in each
model, and ` is the maximized value of the likelihood function.
20/30
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Results and discussion
Results and discussion
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Results and discussion
Specification of g and controls
We use a Cobb-Douglas specification:
log g(β, xl) =β1 log(Population) +
β2 log(Urbanization) +
β3 log(Coal output) +
β4 log(Top 1% inventors) +
β5 log(Core KAIs) +
β6 log(Distance from London) .
(3)
Except for high-quality inventors, all controls are lagged to minimize
concerns on simultaneity. Also, controls are standardized, so as to
guarantee full comparability.
21/30
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Results and discussion
Specification of g and controls
We use a Cobb-Douglas specification:
log g(β, xl) =β1 log(Population) +
β2 log(Urbanization) +
β3 log(Coal output) +
β4 log(Top 1% inventors) +
β5 log(Core KAIs) +
β6 log(Distance from London) .
(3)
Except for high-quality inventors, all controls are lagged to minimize
concerns on simultaneity. Also, controls are standardized, so as to
guarantee full comparability.
21/30
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Results and discussion
Specification of g and controls
We use a Cobb-Douglas specification:
log g(β, xl) =β1 log(Population) +
β2 log(Urbanization) +
β3 log(Coal output) +
β4 log(Top 1% inventors) +
β5 log(Core KAIs) +
β6 log(Distance from London) .
(3)
Except for high-quality inventors, all controls are lagged to minimize
concerns on simultaneity. Also, controls are standardized, so as to
guarantee full comparability.
21/30
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Results and discussion
Specification of g and controls
We use a Cobb-Douglas specification:
log g(β, xl) =β1 log(Population) +
β2 log(Urbanization) +
β3 log(Coal output) +
β4 log(Top 1% inventors) +
β5 log(Core KAIs) +
β6 log(Distance from London) .
(3)
Except for high-quality inventors, all controls are lagged to minimize
concerns on simultaneity. Also, controls are standardized, so as to
guarantee full comparability.
21/30
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Results and discussion
Resulting marginal elasticities
For illustration purposes, let us focus on the Polya case, where it is
defined G =∑
lalb .
Given specification (3), the resulting marginal elasticity associated
to the intrinsic feature xh reads
∂q
∂ log xh=
L∑l=1
∂ql∂ log xhl
= βhG
N + G. (4)
On the other hand, the marginal elasticity associated to localization
externalities reads
∂q
∂ log n=
L∑l=1
∂ql∂ log nl
=L
N + G. (5)
22/30
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Results and discussion
Resulting marginal elasticities
For illustration purposes, let us focus on the Polya case, where it is
defined G =∑
lalb .
Given specification (3), the resulting marginal elasticity associated
to the intrinsic feature xh reads
∂q
∂ log xh=
L∑l=1
∂ql∂ log xhl
= βhG
N + G. (4)
On the other hand, the marginal elasticity associated to localization
externalities reads
∂q
∂ log n=
L∑l=1
∂ql∂ log nl
=L
N + G. (5)
22/30
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Results and discussion
Resulting marginal elasticities
For illustration purposes, let us focus on the Polya case, where it is
defined G =∑
lalb .
Given specification (3), the resulting marginal elasticity associated
to the intrinsic feature xh reads
∂q
∂ log xh=
L∑l=1
∂ql∂ log xhl
= βhG
N + G. (4)
On the other hand, the marginal elasticity associated to localization
externalities reads
∂q
∂ log n=
L∑l=1
∂ql∂ log nl
=L
N + G. (5)
22/30
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Results and discussion
Resulting marginal elasticities
For illustration purposes, let us focus on the Polya case, where it is
defined G =∑
lalb .
Given specification (3), the resulting marginal elasticity associated
to the intrinsic feature xh reads
∂q
∂ log xh=
L∑l=1
∂ql∂ log xhl
= βhG
N + G. (4)
On the other hand, the marginal elasticity associated to localization
externalities reads
∂q
∂ log n=
L∑l=1
∂ql∂ log nl
=L
N + G. (5)
22/30
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Results and discussion
Preliminary result on model selection
The Polya model systematically outperforms the Multinomial model
even after discounting for parametric numerosity. Hence, an
explanation of the spatial distribution of inventors cannot do without
localized externalities.
But how strong are they relative to other drivers?
23/30
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Results and discussion
Preliminary result on model selection
The Polya model systematically outperforms the Multinomial model
even after discounting for parametric numerosity.
Hence, an
explanation of the spatial distribution of inventors cannot do without
localized externalities.
But how strong are they relative to other drivers?
23/30
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Results and discussion
Preliminary result on model selection
The Polya model systematically outperforms the Multinomial model
even after discounting for parametric numerosity. Hence, an
explanation of the spatial distribution of inventors cannot do without
localized externalities.
But how strong are they relative to other drivers?
23/30
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Results and discussion
Preliminary result on model selection
The Polya model systematically outperforms the Multinomial model
even after discounting for parametric numerosity. Hence, an
explanation of the spatial distribution of inventors cannot do without
localized externalities.
But how strong are they relative to other drivers?
23/30
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Results and discussion
In the aggregate: a basic result
Marginal elasticities as obtained from the spatial distribution of all
patent inventors active between 1698–1850. Controls are in year
1697 except for Top 1% inventors, which is simultaneous to the
inventors spatial distribution.
Driver Marginal elasticity
Population 1.10e−02∗∗
Urbanization 3.14e − 04
Coal output 5.89e−03∗∗
Top 1% inventors 2.69e−03∗∗
Core KAIs 1.03e−03∗
Distance from London −5.10e−03∗∗
Localized externalities (n) 9.87e−01∗∗
Note: ∗∗ indicates a 99% confidence level.
24/30
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Results and discussion
In the aggregate: a basic result
Marginal elasticities as obtained from the spatial distribution of all
patent inventors active between 1698–1850. Controls are in year
1697 except for Top 1% inventors, which is simultaneous to the
inventors spatial distribution.
Driver Marginal elasticity
Population 1.10e−02∗∗
Urbanization 3.14e − 04
Coal output 5.89e−03∗∗
Top 1% inventors 2.69e−03∗∗
Core KAIs 1.03e−03∗
Distance from London −5.10e−03∗∗
Localized externalities (n) 9.87e−01∗∗
Note: ∗∗ indicates a 99% confidence level.
24/30
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Results and discussion
In the aggregate: a basic result
Marginal elasticities as obtained from the spatial distribution of all
patent inventors active between 1698–1850. Controls are in year
1697 except for Top 1% inventors, which is simultaneous to the
inventors spatial distribution.
Driver Marginal elasticity
Population 1.10e−02∗∗
Urbanization 3.14e − 04
Coal output 5.89e−03∗∗
Top 1% inventors 2.69e−03∗∗
Core KAIs 1.03e−03∗
Distance from London −5.10e−03∗∗
Localized externalities (n) 9.87e−01∗∗
Note: ∗∗ indicates a 99% confidence level.
24/30
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Results and discussion
At different time periods: important variations over time
1750 1775 1800 1825 1850−0.5
0
0.5
1
Mar
gin
alel
asti
city Localized externalities
Population
Top 1% inventorsDistance from LondonCoal outputStatistically ≈ 0
25/30
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Results and discussion
At different time periods: important variations over time
1750 1775 1800 1825 1850−0.5
0
0.5
1
Mar
gin
alel
asti
city Localized externalities
Population
Top 1% inventorsDistance from LondonCoal outputStatistically ≈ 0
25/30
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Results and discussion
At industry level: further insights
Marginal elasticities as obtained from the spatial distribution of all patent
inventors active in the textiles and steam engines industry between 1826–
1850. Controls are in year 1825 except for Top 1% inventors, which is
simultaneous to the inventors spatial distribution. Also, the first available
data for industry-level employment is in 1841.
Driver Textiles Engines (steam)
Population −8.89e − 03 3.33e−01∗
Urbanization 6.53e−02∗∗ −1.16e − 02
Coal output 2.02e − 02 −2.57e − 02
Top 1% inventors 2.56e−02∗ 8.25e−02∗
Core KAIs −3.58e − 03 1.39e − 02
Distance from London −2.88e − 02 −5.93e − 02
Industry-level employment 9.57e−02∗∗ 6.37e−01∗∗
Localized externalities (n) 9.13e−01∗∗ 5.35e−01∗∗
Note: The symbol ∗∗ indicates a 99% confidence level.
26/30
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Results and discussion
At industry level: further insights
Marginal elasticities as obtained from the spatial distribution of all patent
inventors active in the textiles and steam engines industry between 1826–
1850. Controls are in year 1825 except for Top 1% inventors, which is
simultaneous to the inventors spatial distribution. Also, the first available
data for industry-level employment is in 1841.
Driver Textiles Engines (steam)
Population −8.89e − 03 3.33e−01∗
Urbanization 6.53e−02∗∗ −1.16e − 02
Coal output 2.02e − 02 −2.57e − 02
Top 1% inventors 2.56e−02∗ 8.25e−02∗
Core KAIs −3.58e − 03 1.39e − 02
Distance from London −2.88e − 02 −5.93e − 02
Industry-level employment 9.57e−02∗∗ 6.37e−01∗∗
Localized externalities (n) 9.13e−01∗∗ 5.35e−01∗∗
Note: The symbol ∗∗ indicates a 99% confidence level.
26/30
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Results and discussion
At industry level: further insights
Marginal elasticities as obtained from the spatial distribution of all patent
inventors active in the textiles and steam engines industry between 1826–
1850. Controls are in year 1825 except for Top 1% inventors, which is
simultaneous to the inventors spatial distribution. Also, the first available
data for industry-level employment is in 1841.
Driver Textiles Engines (steam)
Population −8.89e − 03 3.33e−01∗
Urbanization 6.53e−02∗∗ −1.16e − 02
Coal output 2.02e − 02 −2.57e − 02
Top 1% inventors 2.56e−02∗ 8.25e−02∗
Core KAIs −3.58e − 03 1.39e − 02
Distance from London −2.88e − 02 −5.93e − 02
Industry-level employment 9.57e−02∗∗ 6.37e−01∗∗
Localized externalities (n) 9.13e−01∗∗ 5.35e−01∗∗
Note: The symbol ∗∗ indicates a 99% confidence level.26/30
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Results and discussion
Resonance of the results with the literature
• “The mass of farmers learned from their neighbors”.
– Macdonald (1979), on Northumberland farmers.
• “[. . . ] Engineering firms had to be technically competent, but it was
vital to be connected into a local network of technical and commercial
information”.
– Cookson (1997), on Yorkshire textile engineers.
• “The productive system as a whole mattered in fostering technical
progress. Mutual interaction of producers and users widened the
pool of talent available, and deepened competitive strength. The
complexity of interactions and accumulated skills restricted the degree
to which such knowledge could be portable to new regions”.
– Von Tunzelmann (1994).
27/30
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Results and discussion
Resonance of the results with the literature
• “The mass of farmers learned from their neighbors”.
– Macdonald (1979), on Northumberland farmers.
• “[. . . ] Engineering firms had to be technically competent, but it was
vital to be connected into a local network of technical and commercial
information”.
– Cookson (1997), on Yorkshire textile engineers.
• “The productive system as a whole mattered in fostering technical
progress. Mutual interaction of producers and users widened the
pool of talent available, and deepened competitive strength. The
complexity of interactions and accumulated skills restricted the degree
to which such knowledge could be portable to new regions”.
– Von Tunzelmann (1994).
27/30
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Results and discussion
Resonance of the results with the literature
• “The mass of farmers learned from their neighbors”.
– Macdonald (1979), on Northumberland farmers.
• “[. . . ] Engineering firms had to be technically competent, but it was
vital to be connected into a local network of technical and commercial
information”.
– Cookson (1997), on Yorkshire textile engineers.
• “The productive system as a whole mattered in fostering technical
progress. Mutual interaction of producers and users widened the
pool of talent available, and deepened competitive strength. The
complexity of interactions and accumulated skills restricted the degree
to which such knowledge could be portable to new regions”.
– Von Tunzelmann (1994).
27/30
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Results and discussion
Resonance of the results with the literature
• “The mass of farmers learned from their neighbors”.
– Macdonald (1979), on Northumberland farmers.
• “[. . . ] Engineering firms had to be technically competent, but it was
vital to be connected into a local network of technical and commercial
information”.
– Cookson (1997), on Yorkshire textile engineers.
• “The productive system as a whole mattered in fostering technical
progress. Mutual interaction of producers and users widened the
pool of talent available, and deepened competitive strength. The
complexity of interactions and accumulated skills restricted the degree
to which such knowledge could be portable to new regions”.
– Von Tunzelmann (1994).
27/30
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Conclusion
Conclusion
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Conclusion
Conclusion
Our work establishes the importance of localization externalities in
driving inventor location during the British Industrial Revolution.
In this sense, it contributes to some debates in the economics of
innovation:
• Codified knowledge vs. Tacit knowledge.
• Scientific approach vs. Artisan know-how.
• “Elite” vs “Democratic” invention.
28/30
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Conclusion
Conclusion
Our work establishes the importance of localization externalities in
driving inventor location during the British Industrial Revolution.
In this sense, it contributes to some debates in the economics of
innovation:
• Codified knowledge vs. Tacit knowledge.
• Scientific approach vs. Artisan know-how.
• “Elite” vs “Democratic” invention.
28/30
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Conclusion
Conclusion
Our work establishes the importance of localization externalities in
driving inventor location during the British Industrial Revolution.
In this sense, it contributes to some debates in the economics of
innovation:
• Codified knowledge vs. Tacit knowledge.
• Scientific approach vs. Artisan know-how.
• “Elite” vs “Democratic” invention.
28/30
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Conclusion
Conclusion
Our work establishes the importance of localization externalities in
driving inventor location during the British Industrial Revolution.
In this sense, it contributes to some debates in the economics of
innovation:
• Codified knowledge vs. Tacit knowledge.
• Scientific approach vs. Artisan know-how.
• “Elite” vs “Democratic” invention.
28/30
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Conclusion
Conclusion
Our work establishes the importance of localization externalities in
driving inventor location during the British Industrial Revolution.
In this sense, it contributes to some debates in the economics of
innovation:
• Codified knowledge vs. Tacit knowledge.
• Scientific approach vs. Artisan know-how.
• “Elite” vs “Democratic” invention.
28/30
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Conclusion
Conclusion
Our work establishes the importance of localization externalities in
driving inventor location during the British Industrial Revolution.
In this sense, it contributes to some debates in the economics of
innovation:
• Codified knowledge vs. Tacit knowledge.
• Scientific approach vs. Artisan know-how.
• “Elite” vs “Democratic” invention.
28/30
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More on population estimates
More on population estimates
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More on population estimates
A consistency check at the macro-regional scale
Go back
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More on Woodcroft and patents
More on Woodcroft and patents
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More on Woodcroft and patents
Patent data: pros, cons, and value added
Cons:
• Not all inventions are
patented.
• Patented inventions differ in
quality.
Pros:
• Comprehensive data.
• Possibility to make
quantitative analysis.
The valued added of the present patent dataset is to have a reliable
indicator of patent quality (Woodcroft Reference Index, WRI).
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More on Woodcroft and patents
Bennet Woodcroft
Bennet Woodcroft, 1803-1879
• Inventor; Professor of “Machinery”;
Patent agent; Historian of
technology.
• Owner of a rich personal technical
library which was the initial seed for
the Patent Office Library.
• Advocate of patents as “information
systems”.
• Appointed in 1852 as Assistant to
the Commissioners of Patents.
• He took care of the publication of
the first official patent indexes
Alphabetical, Chronological,
Reference, Subject Indexes
(1850-1860).
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More on Woodcroft and patents
Publications referenced in the Woodcroft Index
• Technical books and engineering journals
Mechanics Magazine, Heberts Encyclopedia, Artizan, Engineer and Architect Journal, etc.
• Legal commentaries on patent law and cases
Webster, Carpmael, etc.
• Journals showcasing developments in science and technology
(they published “judicious selections” of patent specifications)Repertory of Arts, London Journal of Arts and Sciences, Register of Arts and Sciences, Inventors Advocate
and Patentees Recorder, etc.
Go back
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More on Woodcroft and patents
Patent count and cumulative share by industry
Generic patents. High quality patents.
Go back
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More on Woodcroft and patents
Patent count by industry over time