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TÍTULO: The Competitive Evolution of Regions: Towards Smart Specialisation Strategies
AUTOR 1: Jaime del Castillo HermosaEmail: [email protected]
AUTOR 2: Jonatan PatonEmail: [email protected]
AUTOR 3: Belen BarroetaEmail: [email protected]
DEPARTAMENTO: Economía Aplicada V
UNIVERSIDAD: Universidad del País Vasco UPV/EHU
ÁREA TEMÁTICA: Crecimiento, convergencia regional y políticas de cohesión
RESUMEN:
Recently at European level the concept of smart specialisation has gained increasing importance. The
porpoise of this paper is to analyze the situation of smart specialization at European level highlighting the
opportunities but also the threats when considering transfer the concept and the methodologies to each
regional context. The authors have developed a specific methodological approach to RIS3 definition,
implementation and evaluation that give regions common elements but also specificities allowing them
the search for their own regional competitive advantage. The work carried out has been structured into
two stages: (1) specialization patter identification and (2) related variety exploitation. The first stage
introduces the question of specialization pattern and how it evolves through time using complex
coefficients and technological interrelationships to map regional specialization patterns in the long term.
In the second stage, a guideline on how to exploit the regional related variety under the specialization
patterns identified is proposed. Here, interclusters collaboration arises as one of the most valuable
mechanisms and one specific model already tested is included. Finally, all these methodological
propositions are tested in the specific case of the Basque Country, a region that is already developing a
RIS3 framework.
PALABRAS CLAVE: smart specialisation, innovation strategies, Cohesion Policy
0. Introduction.
1
Nowadays, most academics, politicians and businessmen agree that entrepreneurial
processes driven by innovation are the key not only to business success but also to
regional prosperity (Pontikakis et al. 2006, Foray et al. 2009 and McCan and Ortega-
Argilés 2011). However, to ensure the anchorage of prosperity to the regional context
innovation driven entrepreneurship must be understood and developed as a place-based
concept (Barca et al. 2011). This requirement brings into question the mechanisms and
processes necessary to develop the correct place based policies.
The Basque Country is one of the best regional cases to analyse all these issues
specifically how economies evolve and grow, reinventing themselves towards
entrepreneurial discovery processes. Although it can be though that current
entrepreneurial processes in the Basque Country are spontaneous phenomena driven by
natural interclustering effects, there were some macro and micro conditions that
favoured them. Thus, during a period of nearly three decades, the Basque region has
developed specific public-private initiatives as well as a complete policy framework that
has contributed to the emergence of a number of flagship projects resulting from these
entrepreneurial processes.
The paper proposes a quantitative methodology to link the regional economic
specialisation patterns to entrepreneurial discovery processes phenomena and observe
their roots from an economic structure point of view. In addition to that, the paper
proposes also a qualitative methodology complementary to the previous one focused on
those elements that contributed to develop the favourable context’s conditionalities,
especially regarding the role of regional public policy. The paper specifically focused
on one of those entrepreneurial discovery processes -the electric vehicle case-, a new
eco-industry emerging from a quadruple helix collaborative project and from a
technology hybridization process between automotive and energy sectors.
1. Objectives
The main objective of the paper is to analyse the entrepreneurial discovery process
introduced in the smart specialisation literature (Foray et al. 2009 and McCann and
Ortega-Argilés 2011) for the specific case of the Basque Country. A mixed conceptual-
empirical approach allows concluding lessons that could favour the replication of the
Basque case in other regions. The specific objectives of this work are the following:
• Definition of a mixed quantitative-qualitative methodology to identify the regional
related variety possibility frontier and the entrepreneurial discovery processes linked
to its exploitation.
2
• Identification and analysis of the relationships between economic specialisation,
related variety and entrepreneurship regarding smart specialisation and RIS3.
• Application of this methodology to the case of the Basque Country in order to
characterize and describe an example of an entrepreneurial discovery process as
included in the smart specialisation concept.
• Elaboration of a set of conclusions and lessons from the case study in order to
favour the transfer of this experience and the improvement of regional public
policies focused on innovation and entrepreneurship for the coming RIS3.
2. Methods
2.1 Identification of the specialisation pattern and the related variety exploitation
possibilities: the quantitative approach
The methodology developed in this section has its roots in the work of Del Castillo and
Paton (2010b) that it is in turn based on a classical approach for cluster mapping (Porter
2003, Brenner 2005 and Duranton and Overman 2005). As a starting point we consider
chapter to establish a set of variables (5 in total) to be included in the analysis of
economic specialisation mapping:
1) The economic specialization
Economic specialization is one of the most visible characteristics of any given cluster
and has to do with the progressive division of labour according to products and
processes becoming more complex and requiring further deepening of the value chain.
In this sense, we define the specialization of a location as a greater relative value for a
particular variable with respect to the same measure in a superior geographical scope. In
the work of Porter (2003) this has been called the location quotient. Mathematically the
expression of the location quotient for a sector "xij" would be:
Analytical expression 1
where "xij” is the number of firms for the sector “i” and the region “j”, “n” is the total
number of sectors within the economic classification and “z” the total number of regions.
The result of applying this specialisation coefficient (CE) is a percentage that can range
within the following values:
3
CE(������) ������σ ����������=1σ ����������=1σ σ ����������=1����=1100
• “CE” (Xij) ≤1.10 - The sector “xij” has no specialization.
• “CE” (Xij)>1.10 - The sector “xij” has a certain degree of specialization.
The economic activity classification of the Spanish Institute of Statistics (CNAE)
provides information on employment stratum. This information can be further broken
down, taking into account the weight of employment in the identification1. Thus,
together with the criterion of specialization of more than 10% of the average, taking into
account the different levels of employment (without employees, with employees and
with +10 employees) we can further detail the economic specialisation pattern
considering the most remarkable regional clusters.
2) The geographic concentration
Along with economic specialization, the geographic concentration of economic activity
was the most visible element in cluster definition. Although nowadays the relative
importance of geographic proximity has been reduced due to globalization and
transportation and communication cost (Cairncross 2001), distance generates
considerably effects regarding knowledge spillovers, cost efficiencies and cluster
synergies. We propose a measure of geographic concentration based on the GINI index:
Analytical expression 2
Where “Xc” is the percentage of enterprises located in a zip code “c”, and “Yc” is the
percentage of area accumulated for that zip code “c”.
This spatial heterogeneity index ranges from 0 and 1 where 0 represent and equality
distribution of enterprise across territory and 1 represent a total inequality distribution
(total concentration in a given location).
3) The interrelationships between agents
The increasing importance of innovation as a source of economic specialisation has led
to a further analysis of networking performance as a key explanatory element of the
superior performance of economic agglomerations.
The regional input-output framework is the instrument that provides most information
on the relationships between economic sectors. The measurement of technical
coefficients (commercial relationships) gives the degree of dependence between one
sector and the rest of the regional economy. Thus, those sectors that exceed a certain
1 By measuring the degree of concentration based only on the number of incorporated companies, rounded results can be obtained when considering the group of companies without employees.
4
IG = อ1 − (����+1 − ����)(����+1 + ����)��=��−1��=1 อ
value regarding others become part of either suppliers (if the sector is the client) or
customers (if the sector is the provider). In this sense, the input-output analysis will
allow us to identify through these coefficients both suppliers of the core activities of the
cluster as well as the customers of these sectors. The technical coefficients of each pair
of sectors “i” and “j” are calculated by the following expression:
Analytical expression 3
Where “aij” is the technical coefficient for the sector “j”, “xij” the inputs in sector “j” for the sector “I” and
“Xj” the total production in sector “j”. The value of “aij” is always in the range [0.1] and___
From the expression 3 (obtaining the coefficients for the entire matrix), it can be
identified the value chain for a given fixed value “a”. Mathematically the value chain
can be defined as:
Analytical expression 4
From the above expression, the fixed value “aFj” is defined by us as:
Analytical expression 5
In other words, all those sectors that provide intermediate inputs with a higher degree
than the average for that sector (fixed value) may be considered as part of its value
chain. In any case, even setting a filter through the specification of the fixed value “aFj”,
not all sectors within the defined value chain will have the same weight, or in other
words, the same relationship intensity. Therefore, we need to specify different degrees
of relationships within each chain, apart from the selected sectors with a value aij>AFj,
the cut-off points for the 3 categories will be:
Analytical expression 6a
Analytical expression 6b
Analytical expression 6c
Where Ring1 is the cut-off point for a low intensity level, Ring2 for an average level, and Ring3
for a high level (considering the whole sector “j”). T1j and T2j are Ring1 j and Ring2j respectively.
4) The economic impact
5
������ = ����������
����������=1 < 1
∀ ��, ��⊂ ���� ���� ������ > ������
aFj = Σannn
Sector with an economic specialisation nature are in most cases strategic industries for
the economy of a region and their economic relevance comes from both its direct impact
on the main macroeconomic variables (GDP, production, employment, etc.) and the
knock-on effects effect on the rest of the economy. In this sense, the overall impact is
the result of the sum of the direct impact within the cluster itself and the effects on the
rest of the economy.
The methodology proposed (Castillo et al. 2008) firstly calculates the direct economic
impact of the sector, i.e. the economic weight in terms of the variables of employment,
GDP or total production. Secondly, the calculation of the total impact on the economy is
obtained by the multipliers of GDP and employment. The basic tool of this
methodology is the input-output table. The inversion of the matrix gives us the GDP and
employment multipliers:
• The multiplier of added value measures the increases of GDP in the economy due to
the increase in a unit of the final demand in each industry (turnover in our case),
given by the following expression:
GDP Multiplier =GDPi*(I-A)-1 = GDPi*BR Analytical expression 8
Where GDPi is the vector of coefficients of GDP at a basic price per unit of production, “I” is the identity
matrix, “A” is the internal coefficient matrix and therefore “BR” is the interior inverse matrix.
• The multiplier of employment measures the increases of employment required due
to the increases in a unit of the final demand in each industry, given the following
expression:
Employment Multiplier= Ej*BR Analytical expression 9
Where Ej is the employee ratio per unit of production and BR, again, the
interior inverse coefficient matrix.
Applying this multiplier directly on production figures (turnover) and using
corresponding coefficients of income and employment (expressions 8 and 9), we obtain
the induced impacts on income (GDP in our case) and employment, respectively.
5) The technological structure
To calculate the potential technology relationships within a regional economic structure
we use a method based on the input-output framework. From the I-O inverse matrix,
6
Jaffe (1986) uses the following expression to measure the cosenic distance between a
pair of sectors “i” and “j”:
Analytical expression 10
Where “wij” is the new coefficient from the I-O inverse matrix which ranges from 0 (total
technological inequality) to 1 (total technological equality), and “a ik”and “ajk” are the I-O
inverse matrix coefficients calculated from the expression 3.
Following Frenken et al. (2007) and Los (2000), “wij” coefficient can be considered a
good proxy for technological proximity. Using MDS technique (Mutidimensional
Scaling) we can represent the technological distances between sectors for a given
regional economy and obtain the evolution between two different periods. The
comparison between sectoral performances leads us to identify the related variety
possibility frontier (see note 7).
2.2 Identification and analysis of the entrepreneurial discovery process case: the
qualitative approach
The quantitative methodology proposed previously will allow to identify the related
variety possibility frontier for a given economic specialisation pattern at regional level.
Then, the next step must be focused on identifying those areas (economic sector and
clusters) within that frontier that could host entrepreneurial discovery processes from
radical innovations. Here we propose a qualitative methodology for the entrepreneurial
processes analysis following GREMI2 approach. This methodology mainly focuses on:
• Participatory strategic processes (participatory governance).
• Challenge/opportunities identification (window of opportunity).
• Potentialities within the processes from a regional perspective.
• Business model behind the entrepreneurial discovery process and innovations
• Quadruple helix analysis and roles identification.
3. FINDINGS
3.1. A great socioeconomic transformation in terms of regional development
According to the figures of INE and EUSTAT, today the Basque Country is one of the
wealthiest regions in Spain, with a GDP per capita 36% higher than European Union 27,
2 GREMI – Groupe de Recherche Européen sur les Milieux Innovateurs. See Del Castillo et al. (2012)
7
������ = σ ����������������=1ට൫σ ������2 σ ������2����=1����=1 ൯
and 32% higher than Spain's average in 2010. Nevertheless, this outstanding situation
has not been an unchanged pattern for the whole 20th century. Industrial activities
(related mainly to metal manufacturing) dominated the regional economic structure
during the past century, providing the Basque Country with one of the highest economic
growth rates in Spain until the second half of the 70s (Del Castillo 1987). At the end of
the 70s, the Basque industry became obsolete, and a change in the international
competitive model lead to a deep economic crisis during the late 70s and the 80s.
Unemployment rates rose dramatically to nearly 20%, with many businesses closing,
and the social landscape worsened accordingly (Azua 2006). Besides, the resource
intensive industry dramatically degraded the environment in the most populated areas of
the region, limiting its capacity to launch other economic activities.
In this context, the incoming regional government3 defined and implemented a complete
industrial and technological policy in order to modernize and transform the obsolete
Basque economy into intensive innovation (Del Castillo and Paton 2010a). In parallel,
the Basque Government also managed to introduce some initiatives to improve the
environmental situation of the region (Arto 2010). One remarkable aspect is that to a
certain extent, the industrial and technological efforts were combined with the
environmental ones, considering that the success in one of them necessarily implied the
success in the others4 (Ashford 2010).
Figure 1 Basque economic structure evolution since 1980
Source: Authors from EUSTAT 2010
3 After the decentralisation occurred in Spain during the early 80’s, the Basque Government acquire many competencies in fields such as fiscal policy and economic promotion. Its ability to define its own industrial and technological policy can be considered as one of the main causes of a better recovery after the middle 70’s crisis.4 One clear example is the creation of the technology parks as spaces for hosting high-tech activities with an environment friendly approach (Del Castillo and Diez 2006)
8
Nowadays, after 30 years of this kind of efforts, the Basque Country has become an
advanced economy, with a world-class competitive industry in certain activities and a
service sector that represents 70% of regional GDP mainly focused on the knowledge
economy (EUSTAT 2010). On the other side, the environment has improved
significantly and, as some theories state (Florida 2002 and 2005) it may have favored
the allocation of talent and knowledge intensive activities. Anyhow it seems that the
overall situation comparing to that of the 80s could be assessed as positive.
This transformation was based on an innovation intensive pattern (Jaureguizar 1996)
that contributed to a better performance in comparison to national average. One
remarkable aspect behind this process is that the transformation was not only a result of
the progressive modernization of the Basque industry per se, but it was also related to
the adaptation of industrial heritage and regional assets to the new competitive trends
where other aspects such as social issues and environmental conditions were also
critical.
Figure 2 Basque economic growth, R&D effort since 1980 and main socioeconomic indicators
BC SP DE FR IT UK SEGDP p.cap. (PPC–UE27:100) (2009) 136 104 116 107 102 116 120
Lab Prod (PPC–UE 27:100) (2009) 130.3 110.0 104.6 124.5 108.5 109.2 108.8
R&D investment (%GDP) (2008) 1.85 1.35 2.63 2.02 1.18 1.88 3.75
Degrees in S&T (per 1,000) (2007) 27.2 11.2 11.4 20.7 12.1 17.5 13.6
Employment rate (%) (2009) 65.2 59.8 70.9 64.2 57.5 69.9 72.2
% pop sec edu (%) (2008) 78.0 60.0 74.1 83.4 76.5 78.2 87.9
Welfare exp. per cap (€) (2007) 5,156 3,925 7,408 8,007 5,812 7,291 9,744
Internet at home (%) (2009) 60 54 79 63 53 77 86
Greenhouse emissions -2010 114.0 115.0 79.0 100.0 93.5 87.5 104.0
Energy intensity -2007 146.3 184.2 151.5 165.4 142.8 115.5 156.5
Source: Data from Eustat 2010
Public policy played an important role since it not only defined the measures needed,
but also ensured different frameworks for the different fields. Thus, Basque
Government tried to accompany industrial and technology measures with other support
frameworks focused on broad context conditionalities not necessarily linked to
9
economic promotion, but at the same time critical to trigger and multiply their effects
(e.g. social or environmental conditions policies) (Basque Government 2010).
As the figures show apparently, the increasing efforts for modernizing the obsolete
Basque economy reached good results in quite a short time (Olazarán and Lavía 2000
and EUSTAT 2010). In 1981 the R&D expenditure in terms of regional GDP only
accounted for less than 0.1%, which is quite below the national average of 0.42%. But
astonishingly, only six years later the Basque R&D overcame the national average and it
nowadays stands as one of the highest, with 1.96% of total regional GDP (compared to
1.35% of the Spanish average). The anchoring process can be clearly observed through
nearly 30 years, comparing the evolution in innovation effort and main socioeconomic
indicators of the Basque country and of its counterparts at national and European level.
3.2. A great transformation in terms of regional economic structure
From a traditional point of view, economic specialisation patterns are processes from
which some activities get more sophisticated than others, and configure at the so called
natural clusters regional level (Porter 1990 and 1998, and Ketels 2006). In our opinion,
these patterns are thought to host the sources of related variety exploitation
opportunities and the potential entrepreneurial discovery processes.
Following these premises and the methodology proposed in analytical expressions 1 to
9, specialization patterns have been calculated for the Basque Country. The analysis
considers the level of specialisation of various sectors in terms of the Spanish average,
their level of imbrication (in terms of number of sectors in its value chain), their spatial
concentration and their impact in terms of employment and GDP.
Table 1 Specialisation patterns in the Basque Economy: main economic clustersNumber of sectors
CNAE 2009 (Two digits)
Specialisation coeffcient (1) R
ing1
Rin
g2
Rin
g 3
TOTA
L Spatial Heterogeneity
Index
Spatial Heterogeneity Index (%) (2)
% direct regional
empl.
% direct regional
GDP
Total empl.
(3)% GDP total (4)
Paper industry 134.53 9 4 2 15 0.75 98.96 0.55 0.67 1.02 1.23Energy 216.59 10 2 2 14 0.99 130.29 0.10 0.94 0.11 0.98Metal manu. 186.43 11 1 1 13 0.70 91,66 9.14 9.32 18.02 18.38Mach. & electric mat. 246.46 9 1 3 13 0.76 100.02 4.30 4.62 7.5 8.12Automotive 128.71 13 0 1 14 0.78 102.78 1.35 1.62 2.91 4.46Manu. of other vehic. 226.95 10 1 1 12 - - 0.85 0.70 1.73 1.42Environment 111.39 15 3 2 20 0.73 96.64 0.09 0.12 0.15 0.19Trans. & log. 146.90 10 1 1 10 0.96 125.84 0.07 0.15 0.10 0.22Specialized services 184.45 12 0 1 13 0.84 110.11 9.82 7.57 17.78 12.68Welfare services 187.23 14 1 1 16 0.78 102.58 1.23 0.62 2.03 1.039Creative & cultural act. 111.08 10 1 1 12 0.74 97.55 1.62 1.27 2.81 2.21
TOTAL CLUSTERS (% REGIONAL) 29.12 27.6
Source: authors from Del Castillo and Paton (2010b). Data from INE and EUSTAT. Input-Output tables 2005(1) CE>110% average of the 3 criteria(2) % of regional average(3) (direct + induced) regional(4) (direct + induced) regional
10
According to the results obtained, the region shows a strong industrial profile (activities
linked to metal manufacturing) and some advanced services (specialised services to
industries, creative and cultural industries). A total of 11 specialization fields have been
identified ranging from quite big and heterogeneous sectors (metal manufacturing and
specialised services account for nearly 10% of direct employment and GDP) and very
narrow and sophisticated ones (energy, machinery-electric material and manufacturing
of vehicles).
Since the beginning of the reindustrialisation period by mid 80s, the competitive
transformation of the Basque Country has focused on a clear phenomenon by which
industry reinvented itself into a completely modernised and highly technology intensive
one. That has supposed a strong specialisation, where sectors become increasingly
different from each other. Services have registered a similar pattern, many of them
becoming highly knowledge intensive activities. But in parallel, within related
economic groups, new business models have arisen as a result of technological
hybridization (related variety exploitation).
The question now is whether this new business models emergence is something
systematic (structural) or just an isolated phenomenon due to random phenomena
(cojunctural), and not a result of anchoring process of them. In this paper we propose a
method (expression 10) to search for sectoral convergence at macro level using a cluster
dynamic analysis approach, and systematize the process of identification potential
niches of related variety exploitation possibilities through entrepreneurial processes.
Although Porter (1990) explained how countries move from the “factor driven stage” to
the “wealth-driven stage” through innovation, his cluster analysis has mainly focused on
studying their structure and performance from a static perspective. Thus, we have added
a dynamic dimension to the traditional cluster analysis, trying to identify the general
evolution pattern within the Basque natural clusters (figures 3 and 4).
Thus, the figures below show four different areas depending on the technological nature
of the sectoral concentration in it5. The two main areas 2 and 3 are related to services
and industry activities respectively. Area 4 (bottom-right) focuses on primary inputs
activities and area 1 (top-left) does not represent a specific economic activity (but a
transition stage).
5 Notice that this distribution is particular to the Basque Country economic structure reflected in its I-O tables. If the same exercise is applied in other region, the distribution may differ.
11
Figure 3 Basque specialisation technology patterns in 1995
Source: Authors. Data from EUSTAT: Input-Output tables 1995
Figure 4 Basque specialisation technology patterns in 2005
Source: Authors. Data from EUSTAT: Input-Output tables 1995
As we can see in figures 3 and 4, although Basque economic structure has experienced
minor changes since 1995, if we quantify the precise movement of each sector, we can
perceive a certain evolution pattern. In other words, if a given position in the chart
defines a specific relative technology situation for a cluster (the nature of the productive
process itself) a change in its relative position necessarily implies an indirect change in
its technology nature. The table below shows the coordinates of each cluster in 1995
and 2005, the change experienced across areas and quantifies the total movement
12
METAL MANUFACTURING
ENERGY
PAPER INDUSTRY
MACHINERY MANUFACTURING
AUTOMOTIVE INDUSTRY
OTHER VEHICLES MANUFACTURING
ENVIRONMENTAL ACTIVITIES
TRANSPORT &LOGISTICS
BUSINESS SERVICES
WEELBEING SERVICES
CULTURE AND CREATIVE SERVICES
AREA 3
AREA 1
AREA 4
AREA 2
METAL MANUFACTURING
ENERGY
PAPER INDUSTRY
MACHINERY MANUFACTURING
AUTOMOTIVE INDUSTRY
OTHER VEHICLES MANUFACTURING
ENVIRONMENTAL ACTIVITIES
TRANSPORT &LOGISTICS
BUSINESS SERVICES
WEELBEING SERVICES
CULTURE AND CREATIVE SERVICES
AREA 3
AREA 1
AREA 4
AREA 2
intensity using a the Change Index -CI6. Some clusters (paper industry, welfare services
and creative and cultural activities) are not experiencing a significant change in its
technological position. Al off them continue in 2005 in the same area than in 1995 and
the CI is lower than 0.48.
Table 2 Basque technological specialisation patterns evolution between 95-05
Sector/cluster 1995 2005 Change Index (CI)Coor. DimA Coor. DimB AREA Coor. DimA Coor. DimB AREA
Paper industry 0.68 -0.01 4 0.60 -0.07 4 0,14Energy 0.37 1.02 2 0.71 -0.53 4 1,89Metal manufacturing -2.37 -0.87 3 -2.89 -0.52 3 0,87Machinery and electric material -0.84 -0.35 3 -1.03 -0.16 3 0,38Automotive -1.12 -0.33 3 -1.69 -0.28 3 0,62Manufacture of other vehicles -0.99 -0.35 3 -1.30 -0.22 3 0,44Environmental act. -0.32 0.06 1 -0.57 -0.16 3 0,47Transport & logistics -0.23 0.16 1 0.15 0.04 2 0,5Specialized services 0.24 0.05 2 0.20 0.19 2 0,18Welfare services 0.43 0.03 2 0.55 0.39 2 0,48Creative and cultural activities 0.19 0.38 2 0.41 0.46 2 0,3
Source: Authors.
On the contrary, the energy cluster is changing significantly from the second area to the
fourth. According to our hypothesis, the cluster may be evolving to a different business
model. As it enters area 2 we can identify this change as a search for new inputs (i.e.
new energy sources and its combination with other activities).
Other remarkable movements are those identified in industry and services activities
because of their share and impact in the regional economy. In industry metal
manufacturing and automotive sector are moving towards a more pronounced
specialization (inside area 3). Machinery manufacturing and electric materials, and
manufactures of other vehicles (such as ships and aerospace) are moving very slowly
but towards area 1, that is, a prior stage to a pronounce “tertiaritation” towards area 2.
They are combining industrial production with a “customer oriented service”. In
addition to this, in services, knowledge intensive and business services begin to focus
their activity to industry sector. It seems that these businesses begin to specialize in
providing “solutions” to the vast business fabric existing in the Basque Country.
Finally, the environmental activities (mainly represented by recycling and water
management activities) are also moving towards an industry oriented service, especially
to those sector focused on metal manufacturing where the waste and the dangers of
pollution are higher.
6 The Change Index is a measurement of the differences of relative positions experienced by sector/cluster due to its technological nature change. For a complete description see Del Castillo & Paton (2011)
13
Therefore, according to these results the link between the competitive transformation
towards a sustainable innovation and the smart specialisation elements seems to be
positively correlated. Here a sound specialisation process is being taking into account
while an exploitation of the related variety is pursued it is recently observed. In order to
identify the related variety possibility frontier, distances between different pairs of
clustered sectors can be observed aggregating the value of the coordinates in table 27
into a double entry (symmetric) matrix:
Table 3 Basque technological specialisation patterns evolution between 95-05
1 2 3 4 5 6 7 8 9 10 111) Paper industry 02) Energy 0,77 03) Metal manufacturing -0,03 1,02 04) Machinery and electric mat. 0,14 0,47 -0,17 05) Automotive -0,38 0,19 0,35 -0,48 06) Manufacture of other vehicles -0,04 0,41 0,01 -0,18 -0,3 07) Environmental act. -0,19 0 0,3 0,47 -0,05 0,29 08) Trans. & logistics 0,52 0,33 -0,43 -0,26 -0,78 -0,44 -0,73 09) Specialized services -0,16 -0,13 -0,27 -0,1 -0,62 -0,28 -0,55 0,38 010) Welfare services -0,22 -0,03 -0,65 -0,48 -1 -0,66 -0,89 0,04 -0,34 011) Creative and cultural act. 0,16 -0,47 -0,47 -0,3 -0,82 -0,48 -0,77 -0,04 -0,1 0,38 0
Source: Authors
Note: figures in bold (+) shows a reduction of the overall technological distance between sectors
The related variety possibility frontier is composed for all those pairs of sectors whose
technological distances have been reduced. Table 4 presents a list of those sectors for
the period 1995 and 2005. Although many related variety opportunities may be
considered, here we are going to focus on the electric car case. This entrepreneurial
discovery process can be indirectly observed in table 8 in the intersection between the
energy sector (column 2) and machinery and electric material, automotive, manufacture
of other vehicles and transport and logistics (rows 4, 5, 6 and 8).
3.3. The great transformation and the role of regional policy
Although current related variety exploitation possibilities and the related entrepreneurial
discovery processes in the Basque Country are the result of a complex combination of
public policies, private commitments and context conditionalities regarding socio-
economic and environmental dimensions, in this paper we will be analysing the roots of
these processes from a policy perspective.
First of all, the Spanish regional decentralization, that came into force in 1979, allowed
the new Basque Government to put huge efforts into boosting and supporting the 7 For aggregation of coordinates A and B in 1995 and 2005 the following expression has been used:
Aij=[(CoorDimAi95–CoorDimAj95)2+(CoorDimBi95–CoorDimBj95)2]-[(CoorDimAi05–CoorDimAj05)2+(CoorDimBi05–CoorDimBj05)2]
Where Aij is the internal coefficient for the related variety possibility frontier in matrix (table4)
14
revitalization of the regional economy (Del Castillo 1987) and to accompany them with
other areas such as social and environmental ones (Barrero 2010 and Arto 2010).
According to Del Castillo (1987), from a industrial decline situation, three different
models can be differentiated regarding a typical industrial policy: a reindustrialization
policy stage, a modernization stage and an innovation driven stage. After these three
phases, more sophisticated policy measures are to be defined mainly deepening into the
specialization patterns chosen during those first stages (Del Castillo and Paton 2010).
Figure 5 1980-2010: towards entrepreneurial discovery processes anchored to territory
Source: Del Castillo et al. (2012) “The Great Basque Transformation towards sustainable innovations”
In the case of the Basque Country, the current entrepreneurial discovery processes and
the related variety exploitation possibilities are rooted in the industrial sectors supported
during the reindustrialization in the 80s (1st stage), the specialization pattern promoted
in the 90s through clusters (2nd stage) and the new technology domains were encouraged
during the 2000s (3rd stage).
As it can be seen on the figure 5, there are some “linear” consequences arising from the
80s, where the choices made in the past determined the related variety possibility
frontier afterwards. The table also shows a number of “fostering conditions” linked to
each stage and the way by which they have determined the current Basque innovation
model and the related variety possibility frontier for entrepreneurial discovery process8.
8 A brief description of each stage and the relation to current Basque entrepreneurial discovery processes are provided following the periods described by some authors (Del Castillo and Paton 2010 and Jaureguizar 1996)
15
1981-1990: main elements of the reindustrialization
In the early 80´s, the Basque Country had a business fabric focused on mature and
obsolete industrial activities that failed to be competitive in the increasing globalization
context, widespread business “individualism” and unemployment rates above 20%
(Azua 2006). Regarding science and technology context the Basque Country registered
very low levels of R&D and a general unawareness on the concept of private R&D
(Navarro 1993). Besides, the science and technology system was virtually non-existent,
with a very young university unable to play a predominant role and no relevant public
research bodies. To make matters worse, the bad environmental situation conditions (air
pollution, resource and energy intensive productive patterns, etc.) limited the capacity of
the region to host new high-tech activities or simply attracting talent.
But the increased “autonomy” within the Spanish decentralization scheme to define and
implement not only specific economic and industrial policies but also broad policy
support in social and environmental fields, allowed the new Basque Government to lead
the Basque modernization through a sound policy support and the resources to make it
possible. Thus, the Basque Government fostered the creation and consolidation of a
strong base for the Basque innovation system (Technology Centres), the instruments
needed to support business modernization (SPRI a) and combined the modernization
focus with a progressive environment friendly approaches (e.g. technology parks).
1990-2000: The Basque competitiveness approach
In the 90´s, as localization theories became an area of interest during the 90s, especially
those related to “innovative milieus” and “clusters” (Becattini 1990 and Porter 1990),
the Basque Government, along with the main businesses and innovation agents built a
new strategy focused on economic specialization and collaborative approaches: the
Basque cluster policy (Monitor Company 1991). Since the 90s, 11 cluster initiatives
have been launched in the most strategic and competitive sectors as a common space for
debate and discussion regarding competitive challenges and innovation tied to territory
(Aranguren et al. 2009). Nowadays, eight additional emerging clusters have been
included within the cluster policy support in order to include additional economic
activities.
Table 5 Cluster initiatives launched since 1990
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SECTOR CLUSTER YEAR SECTOR CLUSTER YEARMachine tools AFM 1992 Energy Cluster de la Energía 1996Appliances ACEDE 1992 Aeronautics HEGAN 1997Automotive ACICAE 1993 Marine sector Foro Marítimo Vasco 1997Environment ACLIMA 1995 Paper (wood) Paper Cluster 1998Bilbao Port Unipor Bilbao 1995 Audiovisual EIKEN 2004Telecommunications GAIA 1996
Source: Aranguren et al (2009) “Asociaciones cluster de la CAPV: desempeños y retos”
From this moment on, the industrial policy (as well as the technological one) changed
from a “top-down” approach to a “bottom-up” perspective (Moso and Olazarán 2001).
The cluster associations launched intended to serve as mechanisms to identify and
communicate the challenges and necessities of regional businesses, mainly regarding
the knowledge and technology capacities of RTD developers (mainly technology
centres) (Aranguren and Navarro 2003). Moreover, SPRI's programs were designed as
collaborative projects to support collaboration between RTD developers and businesses
from these cluster associations.
It was in this period when the roots of the anchoring capacities of Basque innovations
appeared. On one hand, the cluster approach allowed for the Basque Government to
recognize the needs of the businesses, identifying both technological and competitive
trends to be prioritized (e.g. through cluster observatories). On the other hand, they also
played an important role as intermediate agents to “territorialize” the results and support
of R&D carried out by RTD developers. Finally, clusters set the start of intercluster
collaboration, from which some of the current entrepreneurial discovery processes
emerged (e.g. between energy and automotive sector).
2000-2010: The Basque knowledge economy
The importance gained by technology development and innovation during the 80´s and
90´s reached its peak during the last decade (Del Castillo and Paton 2010). During the
00´s, the Basque innovation system became even stronger with the creation of new
agents (CICs - Centres of Cooperative Research, BERCs - Research Centres of
Excellence, Innobasque, Ikerbasque, etc.).
In addition to the initiatives carried out by EVE and IHOBE until this period, the
inclusion of the social and environmental aspects within the regional competitive and
innovation strategic vision contributed significantly to present them as elements of
equal importance to economic promotion regarding regional competitiveness (Basque
Government 2006).
Parallel to all these initiatives, the Basque Government also promoted a sectoral
economic diversification with the aim of developing new emerging markets. The result
was the definition of Biobask 2010 Strategy (for the biotech sector), Nanobasque 2015
Strategy (nanotechnology) and Tourgune (tourism sector) and their respective agencies.
2010-…: Towards a smart competitiveness
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Recently, the Basque Government, along with the main agents of regional
socioeconomic fabric, has elaborated the new Competitiveness Plan 2010-2013. This
new Plan has been built-up as a smart specialization strategy to promote regional
prioritization of sectors and technologies to achieve entrepreneurial discovery processes.
Thus, the Plan clearly supports flagship projects resulting from entrepreneurial
discovery processes and related variety exploitation. One clear example is the
importance gained by the energy sector and its potential for other economic activities
through energy efficiency solutions (automotive, ICT, construction, manufacturing etc.).
4. Implications: The Basque electric car as an entrepreneurial discovery process
The electric vehicle case emerges undoubtedly from the Basque Great Transformation
economic, social and environmental heritage. At policy level, the experience gained
since the 80s allowed Basque Government to establish a strategic definition process that
identified the potentiality behind sustainable innovations in general, and the electric
vehicle in particular, as a means to face some traditional weakness of the Basque
economy such as the low capacity to generate radical innovation. Moreover, this process
enables the consensus and the commitment through a quadruple helix approach.
From a broader competitiveness approach, the Competitiveness Plan 2010-2014
identified the economic opportunity behind the environmental challenges through a
regional participatory process and also established energy as one of the main “key
enabling technologies” (KET) for the regional competitive advantage at international
level (Basque Government 2010). In parallel, but inside the framework of the
Competitiveness Plan , the Basque Energy Strategy 3E2020 was identified and set as a
priority, therefore facing the traditional weaknesses of energy dependency due to the
lack of fossil energy resources and the high energy intensive productive pattern of the
industry (nearly 1/3 of the regional economy) (Basque Government 2011).
The choice for a sustainable green business model was not made arbitrarily. Both
strategies identified a regional strength in the Basque innovation system (RVCTI) where
some technology centres, the newly created CICs and research groups from regional
universities maintain a frontline position in technologies related to energy efficiency
and storage. Regarding businesses, there was a critical mass behind the advance of the
engineering sector (GAMESA, SENER etc.) and the energy companies (IBERDROLA).
This critical mass, both in economic and technological terms, has been favored by 30
years of industrial and technology policies. But beyond that, one of the main success
factors of the process, the partnership created to commercialize the new opportunity,
18
could have not been possible without the policy support to networks and collaboration
since the 90s. The partnership, based on a quadruple helix (Basque Government through
DG Industry and EVE and SPRI), private sector (main automotive enterprises from the
Automotive Cluster and the Energy Cluster), RTD developers (technology centres such
as Tecnalia and IK4, universities and CIC Nanogune and Energigune) and some end-
users (e.g. transport and logistics, retailers or municipalities) make the complex
combination of technology (technological hybridization) between automotive solutions
and energy efficiency possible, as well as the definition of an integrated business model.
Figure 5 1980-2010: towards entrepreneurial discovery processes anchored to territory
Source: Del Castillo et al. (2012) “The Great Basque Transformation towards sustainable innovations”
The electric vehicle is the experience of an entrepreneurial discovery process rising
from the identification of strategic opportunities within energy constraints (nearly 78%
of the total energy consumed in Basque Country comes from industry and logistics
sectors, a region with no fossil energy resources) and climate change threats. Thus,
sustainability becomes not only business opportunities but also environmental
improvements. That has led to the configuration of a public-private partnership to
develop the initiative of the electric vehicle; a sustainable innovation from the
technological hybridization between automotive and energy sectors.
In 2010, the Basque Government, Automotive Cluster (ACICAE), AIC Automotive
Intelligent Centre and Mercedes-Benz signed an agreement to develop and
commercialize a new electric vehicle model. In October of that year the Basque
Government and REPSOL (Spanish oil company) created IBIL to develop the electric
vehicle model (charging point management mainly, car-sharing, etc.) within the Basque
Country territory. Its competitive advantage lies on its specific distribution model.
19
IBIL market share lies upon those users whose travelling frequency is very high but do
not travel long distances since the electric vehicle has autonomy for no more than 150-
170 km. This vehicle has significant advantages over the traditional one for urban
commuting as well as for medium (or big) fleets of certain retailers (e.g. EROSKI),
public entities (e.g. Osakidetza – health Basque service-, municipalities etc.). The
conceptualization of the management model is a central pillar for the success of this
business (market segmentation, charging points distribution, agreement with energy
distributors, with technology providers and vehicle producers, etc.).
As it may be seen, the management model for electric vehicle comprises a complex
quadruple helix where the core was initially configured by Mercedes-Benz (the OEM
manufacturer), REPSOL (the energy distributor through charging points), the Basque
Government (through EVE agency) and the public-private initiative IBIL responsible
for the development and commercialization of this business model. In this quadruple
helix RTD developers (CICs, technology centres, universities, frontline R&D and
engineering firms, etc.) play a significant role as supporters of the whole concept
(energy efficiency applied to automotive solutions).
Users are also integrated in the partnership through distribution channels (REPSOL),
transport and logistics activities and the trade sector (EROSKI). Public procurement has
been (and will be) one of the main fostering elements, due to the important tractor effect
through public fleets (municipalities´ projects such as HIRIKO, Osakidetza, etc.).
Finally, Public Authorities have played a central role in encouraging and facilitating the
elements needed to launch the initiative (IBIL) and will play a bigger role when
adapting the current regulatory framework and the public procurement mentioned.
The electric vehicle business model lies upon 4 main key axis for its consolidation as a
real choice against non-renewable energy vehicles. The first of all, a strong automotive
sector linked to energy efficiency solutions. Secondly, a progressive increase in the
demand for this kind of vehicles from both public-private fleets and individual
consumers. Thirdly, the investment required for an optimal distribution infrastructure
(charging point) along the Basque (and national) geography. Finally, the
definition/adaptation of the current regulatory framework to favor the emergence of the
commercialization model of the electric vehicle, even with positive discrimination
measures due to its impact on the environment.
Regarding the first axis, the Basque Country hosts an OEM producer (Mercedes-Benz
in Vitoria) and a very important critical mass of TIER 2 and 3 producers. In addition to
20
them, the region also hosts a number of important electric components manufactures
and energy companies that also participated in the process. The Basque Government
supported the emergence of the initiative both through specific programs and
collaborative dynamization.
Regarding the second axis, at a start the electric vehicle went into public fleets, where
municipalities and other public entities (e.g. Cruces Hospital) played an important role.
Secondly it started to be used by a private fleet being manly big market retailers (e.g.
EROSKI, Orona etc.) and car leasing and sharing (IBILEK).
The third axis was developed under the agreement between the Basque Government and
REPSOL to identify the international trends in electric vehicle charging possibilities and
a viability study with the aim of implementing it at regional level. The objective here is
to foster the creation of multiple charging points for these new vehicles. The
collaboration between these two entities and the Energy Cluster as well as the ICT
Cluster favored the technological base of this collaboration.
Finally, in the fourth axis, the electric vehicle model was fostered thanks to a change in
the general legal framework for the electric sector with the introduction of the new legal
form “electric operator” that regulates the charging manager entity. In fact, IBIL was
created in 2010 for this new legal form as a public-private partnership between EVE and
REPSOL. In addition to that, since the main regulatory framework lies under national
authorities, the Basque Government is working with IDEA (Spanish Institute for
Energy) and the Spanish Ministry of Industry (MINETUR) to develop and adapt the
current legal framework to the necessities of this new business model.
In any case, public authorities have been one of the most important agents in the
quadruple helix of the electric vehicle flagship project. From the business model
designed for the exploitation of the electric vehicle, the Basque Government established
a strategic approach to consolidate it focused on 4 axes:
• Automotive sector support, mainly through specific R&D programs that foster
collaboration along the value chain of energy efficiency applied to automotive
(business-to-business and business-RTD developers).
• Promotion of a progressive increase in its use, where public procurement (such as
that of municipalities) and public support programs to boost electric vehicles
acquisition and adaptation (such as those from EVE).
21
• Definition of a coherent and favorable regulatory framework, to reduce uncertainty
in a market where the legal framework is crucial to make the business model
flourish (certification, competition regulation, etc.).
• Ensuring an energy distribution channel through infrastructures, because the
business model of the electric vehicle is linked to the availability of a charging point
and the fixed investment required is considerably high.
6. CONCLUSIONS
The Basque Country case is a clear example of how a quite long process known as the
Great Basque Competitive Transformation has moved the traditional and obsolete
Basque industry of the beginning of the 80s into a thriving one resulting in frontline
entrepreneurial discovery processes from regional related variety such as the electric
vehicle. In this process a remark must to be made considering the role performed by the
Basque Government, whose strategies and policy measures have guided the process for
more than 20 years, and finally promoted the flagship project providing the support and
the intermediation needed to formalize the partnership around the electric vehicle
business model.
But the electric vehicle is only the peak of a bigger phenomenon known as the “Great
Basque Transformation”, a complex process combining a series of economic, social and
environmental dimensions from an historical perspective. The main idea here is that, to
understand how entrepreneurial discovery processes emerge, consolidate and provide an
anchoring effect on economic growth and prosperity to the territory, an interrelated
analysis between socioeconomic and environmental conditionalities in the territory is
needed and, last but not least, the heritage that determines them all. In this context the
way in which regional related variety performs is crucial.
In this paper an historical analysis has been made focusing on those policies (industrial,
technology and environmental) that generate favorable conditions for the emergence of
current Basque sustainable innovations. In the case of the electric vehicle, the four axis
within its business model would not have been possible without the previous advance
(in some cases processes that have been carried out for more than 20 years) in the
private business critical mass (automotive and energy sectors technologically advanced
and able to incorporate frontline), in the strengthening of the regional innovation system
(around energy efficiency key enabling technologies), in a regional governance model
focused on collaboration, and in a change on regional culture towards innovation,
knowledge intensive and environment friendly priorities.
22
The next table summarizes the elements under the success of sustainable innovations
emergence and anchoring in the Basque Country focusing in the electric vehicle case.
The summary shows the key elements to consider regarding the quadruple helix
approach in the Basque Country, the contribution of each agent typology to the electric
vehicle flagship project and the causes from the Basque heritage that make it possible
nowadays.
Figure 6. The quadruple helix and the enablers from the Basque transformation heritage
Source: Del Castillo et al. (2012) “The Great Basque Transformation towards sustainable innovations”
Nevertheless we cannot forget that, apart from the achievements during these 30 years
and the apparent success of sustainable innovations in the Basque Country through a
remarkable policy commitment and support, the Basque model has also generated a
number of weaknesses that may threat its sustainability in the long term.
First of all, although the modernization promoted during the 80s and 90s through a
sound industrial and technology policy reached good results and was one of the enablers
of current entrepreneurial discovery processes (e.g. electric vehicle), this has also
23
PRIVATE INITIATIVE
1
R&D SUPPLIERS
2
PUBLIC ADMINISTRATION
3
REGIONAL CONTEXT
4
ROLE IN THE ELECTRIC VEHICLE
ENABLERS FROM THE BASQUE TRANSFORMATION (1980-2010)
Leading role as applicants of the technology anddevelopers of the new business model aroundthe producers and distribuitors of the electricvehicle
Main companies from the automotive sector(automotive components producers) and energycluster (electric components producers andenergy distribuitors)
Supporting role as main technology owners anddevlopers. They have played a more importantrole during the first stages when thetechnologicaleffortwas bigger.
CICs and technology centres have played animportant role carrying out the initial effort inR&D and transferring technology to businesses.Universities alsohave been involved.
Basque Government support the initiativethroughEVEagency
Basque Government supported the initiativeincluding it as a flagship pilar in the EnergyStrategy (3E2020), Competitiveness Plan andthrough a number of policy instruments(funding, collaboration, etc.)
The problems regarding oil prizes, energyconstrainst and climate change makes theelectric vehicle an affordable option in form ofthe traditionaloptions.
Anyhow, the change towards an environmentalfriendly culture made possible a positiveresponse of society toelectricvehicle.
The current role played by private sector in electric vehicle wouldhave not been possible if during the 80s and 90s the modernistaion ofthe basque industrywouldhadnot happened.
The different measures of the reindustrialisation and technologypolicies make possible that today manufacturing goods sector hadbecome oneof the most competitive inthe Basque Country.
This position as leading tech firms make possible the technologicalevolution towards anenergyefficiency pattern.
Today, Basque Country has a strong innovation system with leadingtechnology centres. This is a consecuence of the support offered bythe government through S&T policy during the 90s and 2000s (e.g.technology centres)
Besides, most of the RTD developers with a bigger role in the electricvehicle are a result of the S&T policy pursued by the governmentduring the2000s suchas the CICs.
The Basque Government has achived a remarkeble experience inR&D+I policy since the 80s. This comprises not only defining the righactions but also establishing the channels to identify the needs andtrends fromthe business fabric.
Since the 80s, the government has progressively introduced changesin the priorities as long as they were needed: reindustrialization in the80s, technological modernisation in the 90s, open innovation in the2000s and sustainable innovationnowadays.
Basque Country as a society has change a lot since the 80s from anresorce intensive industrial society to a knowledge intensive one. Thebusiness model culture has change to one focused on added valueand technology leadership where sustainability is a pilar ofcompetitiveness.
Besides, the priorities have changed progressively towards social aenvironmental objectives (where the sensibilization of regionalgovernment playedasignificantrole)
Public Administration played a central role favoring the context conditionalities for the emergence of sustainable innovations such asthat of the electric vehicle: identifying and covering business needs, ensuring a strong RTD supply, defining a good regulatoryframework, promoting collaboration for critical mass, sensibilizating about environmental issues etc.
generated, to a certain extent, a probable excessive specialization in very small number
of market niches and a limited related variety (see table 3). Besides, many of these
niches are not emerging industry sectors but rather traditional ones where the
competitive forces are very powerful and only a few (automotive and energy in our
case) have managed to reinvent themselves through technological hybridization and
innovation.
Second, the innovation pattern of Basque industries is characterized by a DUI (doing-
using-interactive) approach, which is very useful for incremental innovation but not for
radical innovations. Basque country still fails on moving towards a real science based
innovation able to develop real innovations. Experiences such as that of the electric
vehicle, where RTD developers supported and served as the basis for the innovation
process, have not extended to a majority of the economic structure.
Third, the vast science and technology system generated under the support of the
Basque Government has led to an oversized system, with clear duplicities that later
corrections carried out by the supporting framework were not able to solve. It has not
been able to reach all the business fabric, especially the smaller companies (that
represent more than 95% of total enterprises). Again, apart from some successful cases,
basic science is underdeveloped and does not collaborate with the private sectors.
Fourth, even nowadays some key priorities have been chosen (in line with a smart
specialization approach) such as nano technologies, biotechnologies, renewable energy,
ecoindustries, creative industries, tourism etc., but only a small number of them really
seem to flourish (e.g. electric vehicle and other initiatives in renewable energies).
Therefore, since the figures are quite good nowadays and the related variety possibility
frontier seems to give certain opportunities at medium term, the future is far for being
ensured. The Basque model proved to be good for transforming the economy initially,
but is still unclear that sustainability got ensured apart from some success experiences
like the electric vehicle.
To face this situation, a new strategic process has been launched since 2010 with the
new Competitiveness Plan 2010-2014 and Science, Technology and Innovation Plan
2015. The new notion of “smart specialization” is deeply rooted in both of them with
the aim to finally achieve not only competitiveness but sustainability in the long term.
The success factors that are supposed to enable the emergence of sustainable innovation
such as that of the electric vehicle in the Basque Country can be a recipe for success in
the upcoming smart specialisation approaches. In other words, a renewed strategy built
24
of a conjunction of elements where policies in each field have managed to conform a
coherent framework to improve the triple helix of prosperity.
Regarding the future, we can speak about a new path of “sustainable” prosperity
focused on achieving a twofold objective: (1) economic sustainability ensuring a
coherent social and environmental context able to foster competitiveness through
knowledge (long run economic growth through sustainable foundations), and (2)
enough economic “health” to advance in the main social and environmental indicators.
Those general objectives clearly define the idea behind the electric vehicle initiative and
the strategy around it.
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