Identification of Key Policy Factors for Technological Innovation in
China's New Energy Vehicle Industry based on Complex Network
Model
Qiwei Liu, Wei Le and Benhai Guo
School of economics and management, China Jiliang University, Hangzhou, China
Keywords: Industrial Policy, Factor Analysis, Modeling Application.
Abstract: At present, the rapid development of China's new energy vehicle industry has put forward new requirements
for the breadth and depth of technological innovation. Combined with the technical status of China's new
energy vehicle industry, the policy of China's new energy vehicle industry was collected and sorted, and
policy text mining was used to mine high-frequency policy words that promote industrial technological
innovation. Therefore, this paper uses UCINET software to construct a symbiosis network model of policy
high-frequency words, identifies key policy factors of technological innovation in the new energy vehicle
industry according to the network topology characteristics, and provides theoretical support for further
analysis of policy-driven industrial technological innovation.
1 INTRODUCTION
As an important measure for the state to guide
industrial transformation and upgrading and promote
industrial sustainable development, industrial policy
needs various policy tools to complement each other
and form a joint force, so as to achieve the purpose of
the policy. Many scholars have conducted in-depth
discussions on this, Li (Li 2021)
found that the
uncertainty of trade policy is positively related to the
effect of scientific and technological R & D, and
government subsidies reduce the strength of this
relationship. Guo (Guo 2021)
used the diamond
model to analyze the correlation of various factors in
China's new energy vehicle industry, and pointed out
that the key to the endogenous development of
subsidy incentive in the post subsidy era depends on
the interaction of various factors. Zhang (Zhang
2021) based on the social system transformation
theory and from a multi-level perspective, proposed a
business model innovation path consistent with
China's new energy vehicle industry. Hanna and
Deborah (Hanna, Deborah, 2018) analyzed the cost
of traditional vehicles, hybrid vehicles and pure
electric vehicles in 14 cities and believed that they
should continue to make efforts in the tax preference
and R & D investment policies of new energy
vehicles. Zhou and Pan (Zhou, Pan, 2019) explored
the marginal benefits of subsidy and tax policies
based on the transaction cost theory, and pointed out
that in order to ensure reasonable market competition,
the industrial policy of new energy vehicles should
change from subsidy policy to tax policy. Xiong and
Li (Xiong, Li, 2019) pointed out that China's new
energy vehicle policy does not match the consumer
market well in the implementation process, and
differentiation policies should be formulated by
region, stage and intensity, so as to promote industrial
development. Chen (Chen 2021) built a dynamic
game model based on system dynamics, analyzed the
impact of subsidy decline on the new energy vehicle
market, and pointed out that under the trend of
subsidy decline, improving their own technological
innovation ability and promoting consumer demand
are the key to ensure the stable development of the
industry.
As an important part of China's strategic emerging
industry, the new energy vehicle industry was faced
with the embarrassing situation of high price, low
quality, high supply and low demand, and the income
could not be internalized in the early stage of
promotion, which led to practical problems such as
low resource allocation and insufficient investment in
independent innovation and R & D. Using
different types of policies to promote industrial
innovation and development has become the primary
Liu, Q., Le, W. and Guo, B.
Identification of Key Policy Factors for Technological Innovation in China’s New Energy Vehicle Industry based on Complex Network Model.
DOI: 10.5220/0011157400003440
In Proceedings of the International Conference on Big Data Economy and Digital Management (BDEDM 2022), pages 67-71
ISBN: 978-989-758-593-7
Copyright
c
2022 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
67
choice of countries all over the world. However,
different types of policies have different focus, and
there are significant differences in the operation
mechanism of promoting industrial development. At
the historical intersection of a new round of scientific
and technological revolution and industrial
innovation reform, clarify the action mechanism and
connotation of new energy vehicle industrial policy,
improve the leading and driving role of industrial
policy system in the development of new energy
vehicle industry, and summarize and analyze the
elements of industrial policy that can not be ignored.
Since the promulgation of the development plan
for energy saving and new energy vehicle industry
(2012-2020), the upstream and downstream of
China's new energy vehicle industry chain has
gradually increased R & D investment, and the
production and sales volume has increased year by
year. So far, China's new energy vehicles have
entered a new stage of promotion and application. At
the same time, the policy orientation of China's new
energy vehicle industry has gradually changed from
selective industrial policy to functional industrial
policy. In this process, how to further promote the
technological innovation and development of China's
new energy vehicle industry and guide the new
energy vehicle industry from the decline of subsidies
to the "upslope" of innovation is very important.
2 MATERIALS AND METHODS
There are many upstream and downstream related
industries in the new energy vehicle industry, and all
technical links cooperate closely, gradually forming a
large-scale complex system with multi-body
participation and multi industry linkage development.
The high-quality sustainable development of
complex systems plays a leading role in industrial
development. Technological innovation is the top
priority. It is essential to explore the key factors of
industrial technological innovation. Promoting
industrial technological innovation is not achieved
overnight. We must clarify the system structure of the
fresh energy vehicle industry chain, abstract the
system structure by model, and clarify the key factors
driving technological innovation.
Firstly, the laws, regulations, plans, notices and
other policy texts related to the development of new
energy vehicle industry from 2012 to 2020 are
selected on the website of the Chinese government,
the website of the national development and Reform
Commission, the China new energy vehicle industry
alliance and the national laws and regulations
database, and the comprehensiveness of the policy
texts is ensured through related content retrieval.
Because the local policy is the expansion of the
central policy and has certain regional characteristics,
the policies issued by provinces and cities are
excluded during retrieval. According to the analysis
and comparison of the retrieved policies by China
automotive industry information network and Peking
University magic weapon, eliminate the duplicate and
irrelevant industrial policies, classify the policies
according to different types and different publishing
departments, and preliminarily determine 427
policies related to the new energy vehicle industry.
Then, after intensive reading of the preliminarily
selected industrial policies from the aspects of policy
measures, policy types and policy timeliness, it is
found that a large number of policies mention new
energy vehicles, but there is no substantive planning
for the development of new energy vehicle industry,
and the policy specifications are low. After repeated
discussion with relevant experts and team teachers of
industrial policies, the new energy vehicle industrial
policy database is finally determined, Including the
State Council, the national development and Reform
Commission, the Ministry of public security, the
Ministry of housing and urban rural development, the
Ministry of industry and information technology, the
Ministry of finance, the Ministry of science and
technology, the Ministry of environmental
protection,
the Ministry of Commerce, the Ministry of
communications, the State Administration of
Taxation, the state energy administration, the State
Administration of quality supervision, inspection and
quarantine, the State Standardization Commission,
the State Grid, the State Railway Administration, the
General Administration of customs, the head office of
the people's Bank of China, the CBRC 105 national
new energy vehicle industry policies issued by more
than 20 departments such as China Automobile
Association. Finally, according to the relevance
between different elements of the policy text, build a
co-occurrence network of technological innovation
policies in the new energy vehicle industry,
systematically analyze the evolution process of
China's new energy vehicle industry policies by
combining quantitative and qualitative methods and
using the topological structure characteristics of the
network, and extract the key policy factors to promote
technological innovation in the new energy vehicle
industry in combination with the new energy vehicle
industry, Lay a theoretical foundation for promoting
the development of industrial technology innovation.
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68
3 RESULT& DISCUSSION
Combined with relevant literature, this paper further
discusses the content of China's new energy vehicle
industry policy from 2012 to 2020 with four
professors in the field of industrial policy and two
experts in the field of technological innovation in the
new energy vehicle industry, determines the element
boundary, and analyzes and summarizes the policy
elements promoting industrial technological
innovation. In order to ensure the scientificity and
effectiveness of policy elements, the existing new
energy vehicle industry policy database is randomly
screened and marked, and finally determined as ten
types of policy elements, namely financial support,
production access, fiscal and tax support, integral
compliance, market supervision, transportation,
infrastructure, achievement incentive, government
procurement and talent support, The classification
and definition of policy elements are shown in table
1.Thus, a co-occurrence matrix of policies to promote
technological innovation in new energy vehicle
industry is constructed, as shown in Table 2.
Table 1: Policy Elements for Promoting Technological
Innovation in China's New Energy Vehicle Industry.
classification definition
Financial
Support
(FS)
Promote the popularization,
application and innovative
development of new energy vehicles
through differentiated loan interest
rates.
Production
Access
(PA)
Adapt to the needs of industrial
development, adjust the access
standards of relevant enterprises in
the upstream, middle and
downstream of the new energy
vehicle industry chain, and guide the
market-oriented transformation of
the industr
y
.
Tax Support
(TS)
Promote the promotion, application
and technological development of
China's new energy vehicle industry,
and give certain financial and tax
support to relevant enterprises and
individuals based on the mileage,
battery energy density and other
indicators of new ener
gy
vehicles.
Integral
Compliance
(IC)
Establish a point trading mechanism
to promote the market-oriented
means of energy-saving of traditional
fuel vehicles and innovation of new
ener
gy
vehicle industr
y
.
Market
Supervision
(MS)
Product quality and safety
supervision and management,
p
roduct inspection system,
construction of supervision platform,
setting some technical safety
thresholds, etc.
Transportation
(T)
Increase the promotion and
application of new energy vehicles in
public transportation, leasing,
logistics, ports and other fields, and
implement the right of way priority
policy for new energy vehicles in
some cities.
Infrastructure
(I)
Increase the proportion of
infrastructure construction such as
charging and replacement pile
stations, encourage relevant
enterprises to join the service
operation of charging facilities, and
b
roaden charging financing channels.
Achievement
Incentive
(AI)
Strengthen the protection of
intellectual property rights,
strengthen the support for scientific
and technological research and
development of new energy vehicle
related technologies, and set up
special projects for scientific and
technological research and
develo
p
ment.
Government
Procurement
(GP)
Through the purchase of new energy
vehicles by government organs and
public institutions, we will further
strengthen the promotion and
application of new energy vehicles
and promote the accelerated
development of the industry.
Personnel
Support
(PS)
Colleges and universities are
encouraged to set up interdisciplinary
majors related to new energy
vehicles, add relevant research
institutes in the field of new energy
vehicles, and promote the in-depth
integration of industry, University
and research.
Table 2: Co-occurrence Matrix of Policy Elements Driving
Technological Innovation of China's New Energy Vehicle
Industry.
FSTSICPAMS T I AI PSGP
FS 0 7 1 1 1 4 4 2 2 3
TS 7 0 8 6 4 12 18 11 11 7
IC 1 8 0 10 6 8 10 12 13 1
PA 1 6 10 0 4 5 9 11 11 2
MS 1 4 6 4 0 6 6 3 3 3
T 4 12 8 5 6 0 17 12 12 8
I 4 18 10 9 6 17 0 15 14 9
AI 2 11 12 11 3 12 15 0 29 2
PS 2 11 13 11 3 12 14 29 0 1
GP 3 7 1 2 3 8 9 2 1 0
Identification of Key Policy Factors for Technological Innovation in China’s New Energy Vehicle Industry based on Complex Network
Model
69
Use UCINET software to draw the co-occurrence
matrix into the co-occurrence network of policy
elements of China's new energy vehicle industry, as
shown in Figure 1. Among them, the larger the node,
the greater the degree value, that is, the better the
implementation effect of this type of policy elements
in the current new energy vehicle industry policy
system.
Figure 1: Co occurrence network of policy elements of
China's new energy vehicle industry.
It can be seen from Figure 1 that in the co-
occurrence network of China's new energy vehicle
industry policies, the nodes of infrastructure,
achievement incentive and talent support are large,
while the nodes of financial support, government
procurement and market supervision are significantly
smaller than other nodes, which can reflect that China
pays more attention to infrastructure construction
Achievement incentive and talent support promote
industrial technological innovation, while financial
support, government procurement and market
supervision play a small role in promoting industrial
technological innovation.
The co-occurrence relationship of policy elements
in the new energy vehicle industry has been steadily
developed for a long time, and the gradually formed
co-occurrence network can be regarded as a static
complex network. This static co-occurrence network
represents the interaction of policy elements in the
evolution of policy system. The co-occurrence
network of policy elements can be used to measure
the characteristics of network topology (as shown in
table 3) and further analyze the key policy elements
in China's new energy vehicle industry policy.
Table 3: Topology Characteristics of Policy Element Co-
occurrence Network.
Degree
Clustering
coefficient
Effective scale Efficiency
AS 25 8.861 4.069 0.452
TS 84 7.222 4.478 0.498
IC 69 7.639 4.33 0.481
PA 59 7.917 4.268 0.474
MS 36 8.556 4.484 0.498
T 84 7.222 4.456 0.495
I 102 6.722 4.745 0.527
AI 97 6.861 4.111 0.457
PS 96 6.889 4.085 0.454
GP 36 8.556 4.216 0.468
4 CONCLUSIONS
In the co-occurrence network of policy factors, the
node degree indicates the frequency of the role of
policy factors in promoting industrial technological
innovation in the existing policy system. It can be
seen from table III that the degree of infrastructure is
the largest, followed by achievement incentive, talent
support, transportation, fiscal and tax support,
integral compliance, production access market
supervision, government procurement and financial
support. It can be seen that in China's existing new
energy vehicle industry policies, strengthening
infrastructure construction can alleviate the mileage
anxiety of new energy vehicles. The promotion and
application of new energy vehicles can greatly
promote the technological innovation of the current
industry, followed by the incentive of scientific and
technological achievements and talent support,
However, government procurement and financial
support have not shown much in the promotion of
technological innovation in the current policy system.
In the actual network, the high clustering coefficient
leads to the poor robustness of the network
as a whole,
which is not conducive to the development and
evolution of the industrial policy system. It can be
seen that the policy elements of infrastructure
construction, achievement incentive, talent support,
fiscal and tax support, integral compliance and
transportation are more in line with the evolution of
the technological innovation policy system of the new
energy vehicle industry, while government
procurement The performance of financial support
and market supervision is poor, with a fault gap. From
the characteristics of network structure, the effective
scale and efficiency of co-occurrence network can
measure the synergy of different policy factors in the
technological innovation policy system of new
energy vehicle industry. Among them, infrastructure
has the best synergy in the industrial policy system,
followed by fiscal and tax support, transportation,
integral compliance, production access, market
supervision, achievement incentive, talent support
Government procurement and financial support.
BDEDM 2022 - The International Conference on Big Data Economy and Digital Management
70
According to the analysis of the characteristics of the
comprehensive network structure, infrastructure is
the most important factor in the technological
innovation policy system of the new energy vehicle
industry, and there are many fault gaps in financial
support, government procurement and market
supervision compared with other policy factors.
Therefore, through the analysis of the co-occurrence
network, it is found that infrastructure, transportation,
achievement incentive, talent support, fiscal and tax
support Integration compliance and production
access are key policy elements to promote industrial
technological innovation.
ACKNOWLEDGEMENTS
General project of National Natural Science
Foundation of China (72074200).
Key project of student scientific research plan of
China Jiliang University (2020X24061).
National Social Science Foundation of China
(18BJY071).
Zhejiang Province basic scientific research
business support project (2021YW93).
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Identification of Key Policy Factors for Technological Innovation in China’s New Energy Vehicle Industry based on Complex Network
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