BRIEF ANALYSIS ON PROFITS ALLOCATION
OF IOT INDUSTRY CHAIN
Sun Qin and Lu xi-yan
Beijing Jiaotong University, Jiaoda East street, Haidian District, Beijing, China
Keywords: Internet of Things, Industry Chain, profits Allocation, Shapley value.
Abstract: The development of Internet of Things (IOT) is in its infancy in China, many key technologies and core
problems of the industry chain are not resolved, including how to allocate profits of companies on the
industry chain to promote the development of the whole industry is important. This paper analyzes the IOT
industry chain under the model dominated by Chinese Telecom Operator, and put forward the basic
principles of the benefits distribution and proposes own view on the whole industry chain in the distribution
of interests of all parties by using the Shapley-value model.
1 INTRODUCTION
The "Internet of things" is going popular in China,
many areas with government support, strongly build
industrial park of IOT, however, the domestic
research on the Internet of Things is still in the
initial stage, most researches like all business areas
in Chinese market have the problem of "important
hardware, less software", as the situation is often a
talk about IOT is the sensor, chip, RFID,
communications modules and other technologies,
and the researches on development of industry and
industry chain as a whole are very few. Therefore, a
full understanding of the structure of IOT industry
chain, coordinating upstream and downstream
business activities in industry chain, potential
customers of the classification, definition, needs
analysis as the core, diversification of production,
personalized information products, to expand the
services market , to bring more revenue for the
members of the industry chain than the previous
collaboration, those are significant.
To maintain sound and stable industrial chain, the
distribution of benefits is the key, if the distribution
of benefits on the industry chain is not fair; it will
affect the enthusiasm of cooperation and partnership
and could even lead to failure. Thus, in the initial
stage of IOT in China, we should adhere to the
principle of fair and equitable, considering the
investment of core business (such as telecom
operators, system operators) in the industrial chain
as well as to take the risks, to establish a rational
profit distribution mechanism , balanced the interests
of members of the industrial chain business , so that
the members can fully share the incremental benefit
of the industry chain, stabilizing relations of
cooperation, optimize the industrial chain.
2 INTERNET OF THINGS
INDUSTRY CHAIN
2.1 Definition
The paper "Internet of Things" is called the third
wave of the world information industry, following
the computer and the Internet. Early in 1999 China
put forward the "Internet of Things" concept, but
instead it was called sensor network is not called
"Internet of Things." November 27, 2005, in Tunis
Summit on the Information Society, International
Telecommunication Union (ITU) released the "ITU
Internet Reports 2005: Internet of Things", formally
proposed the concept of IOT. Internet of Things is
based on the computer, the use of RFID, wireless
data communications technology, to construct
internet of things covered everything in the world. In
this network, the Goods (commodities), and between
objects, people and goods can all "communicate"
with each other. In actually it uses radio frequency
identification (RFID) technology, through the
computer internet realized goods (products) of the
automatic identification and interconnection and
165
Qin S. and xi-yan L..
BRIEF ANALYSIS ON PROFITS ALLOCATION OF IOT INDUSTRY CHAIN.
DOI: 10.5220/0003549001650169
In Proceedings of the 13th International Conference on Enterprise Information Systems (ICEIS-2011), pages 165-169
ISBN: 978-989-8425-56-0
Copyright
c
2011 SCITEPRESS (Science and Technology Publications, Lda.)
Perception
Information
transport
Processing
Users
sharing of information.
Industry chain is a kind of vertical Strategic
alliance relational chain, in which the relevant
enterprises in different industries products,
technology and capital as the link with the value
added in a certain geographic area. Different
scholars give a different definition of different chain,
but one thing is consistent point of view, that within
the specific industry chain, in all aspects of the
industrial chain the close alliance and collaborative
relationship, and midstream and downstream
industry links, even the entire life cycle, are
ultimately designed to meet consumer demands.
IOT in their own development, led the
microelectronics, sensing devices, automatic control,
machine intelligence, intermediary services, systems
integration and a series of sustainable development
of related industries, bringing huge industry cluster
effect, and form a unique IOT chain. IOT chain
refers to the economic activities of IOT, based on
the inherent economic and technological relations,
the relevant enterprises linked together, end-to-end
forming the interlocking chain structure. The
formation is not only to make his related companies
value added, the value of industry chain is greater
than the overall value of various enterprises, but also
make things a sustainable development.
In short, the formation of the industrial chain of
IOT, their value added, can be able to achieve the
purpose of "win-win" and sharing risk.
2.2 Structure and Relationship
of IOT Industrial Chain
IOT are divided into three components: perception
layer (providers of sensor information or services
that base on sensor information), transport layer
(intermediates who provide the market platform to
connect providers and customers), application layer
(consumers querying information).However, the
division of the industrial chain of IOT does not
correspond to them. The participants are the sensor
equipment suppliers, sensor information providers,
content providers, system integrators, network
operators, terminal providers, users and so on.
Among them the telecommunications network
operators have the source of valuable customers and
operational support platform, then become the core
of the industrial chain.
IOT needs a broad network of industry
applications, but the development of industries are
not balanced, as a whole, IOT industry in china is
still at an early stage, technologies, standards,
products, and market are all not mature, there are
Value‐added
Information
processing
Value‐added
RawMaterial
Of
A B C
Figure 1: Structure diagram of IOT industry chain. A
stands for sensor supplier; B stands for network operator;
C is for system integrator.
many problems in the Internet of things industry
chain, one of them is that profits distribution of the
members affects the stability and improvement of
the industrial chain, and restricts the creation and
increase of the overall value in the industrial chain.
The following section will specifically discuss the
content of the interests distribution of the industry
chain.
3 THE RELATIVES
OF BENEFITS DISTRIBUTION
IN IOT INDUSTRY CHAIN
3.1 The Theoretical Basis of the
Benefits Distribution
Enterprises stakeholder theory referred to as
"stakeholder theory", the theory holds that every
enterprise can not develop without the input and
involvement of various stakeholders. In the search
for their own interest, other stakeholders' interests
could also be taken into account. In the chain, every
enterprise contributes their core competence to the
collection of information of products, contents,
services and so on, and links together to achieve
resource sharing, risk sharing, control the market
demand and aims at "win-win".
3.2 Interests Allocation Relations
among the IOT Industry Chain
Enterprises in the industrial chain stays in interest
alliance, mutual influence, mutual development,
interdependence, among them there are highly
dependent on the needs of the chain, through
information products, technologies or services to
associate the enterprises. Companies (network
ICEIS 2011 - 13th International Conference on Enterprise Information Systems
166
operators, system integrators, etc.) in the
downstream industry chain, only a few, basically
have a monopoly. For there are a lot of similar
companies, suppliers are in the fierce competition,
the product demands of upstream and downstream
enterprises are very important for suppliers, if not
demands for its products, supplier may be closed,
while the information products of suppliers are also
very important to downstream enterprises, and are
the existence foundation of the market.
In industry chain enterprises are independent
stakeholders, the distribution of benefits between
them need the price of intermediate information
product flowing on in the chain. Sales revenue of
perception layer is the cost of the downstream
businesses, the former companies would want
intermediate products to have the higher price, the
better will be. The latter is the reverse, which wants
the prices as low as possible; there is a game
relationship between them.
3.3 The Principles of Benefit
Distribution in IOT Industry Chain
In the industry chain of IOT, it is known that the link
of network operators is more mature, whose
advantage lie in operations support platform and
client resources, can act as the organizer of the
industrial chain, IOT is providing a turning point in
the development of network operators, they no
longer satisfy with the information plumber's role,
using their own advantage actively to improve and
perfect the industry chain. Now we mainly talk
about some principles of the benefits distribution
under the network operator-led model in IOT
industrial chain.
* Equality and Justice
Equality and justice are the basic principles of the
benefits distribution of IOT industry chain. The
management equity theory tells us that enterprises in
the chain not only concern about the interest
increase of their own, but also concern about the
benefits increment of the relatives, in order to
determine the reasonableness of their own interests
acquired. It greatly affects the basis of stability in
the entire industry chain. As the core business,
network operators should regulate the interests-flow
reasonably in the chain, avoiding too little interests
for sensor suppliers, frustrating the enthusiasm of
suppliers, then affecting the fundamental things of
the formation of IOT.
* Incentives for Suppliers
It is necessary to establish incentives for information
suppliers. At present it is in its infancy for IOT
development, industrial chain links are not perfect,
there are various key technical issues, For example,
and the sensor ports are not unified in the phase of
WSN. For that it will need to pour into many funds
and undertake high risk in developing core
technologies, generally suppliers can not afford, and
require the support and guidance of network
operators.
* Initial Price must be Low
The key problem of benefits distribution is about
pricing intermediate product, which mainly divided
into three categories: the negotiated transfer pricing,
the market transfer pricing and the cost of transfer
pricing. The pricing of Information products is
different from that of traditional commodities; the
pricing based on fixed costs is not established.
Because of network effects, customers making
access to the market of IOT will become more, and
more information products used, greater the value of
the product will be, then lower the cost. At one
stage, information services may even be free and
available to all consumers. When at low prices, the
value of the product has to be increased, to attract
more consumers to join and expand the market of
IOT, and then create more value in the whole
industry chain.
4 MODEL FOR THE
DISTRIBUTION OF BENEFITS
IN IOT INDUSTRY CHAIN
The enterprises on the chain have a win-win
cooperation relationship; their problem is essentially
a matter of cooperative game interests’ distribution.
This paper will carry out a study into benefits
distribution of the participants in the chain with
Shapley- value, then to establish the model of
benefits distribution.
In game theory, Shapley -value model was
presented by Shapley In 1953, describes one
approach to the fair allocation of gains obtained by
cooperation among many actors, and has wide
application prospects in cost distribution for many
participants. The basic premise is as follows: a
coalition of actors cooperates, and obtains a certain
overall gain from that cooperation. When people
have non-antagonistic activity of the interests, the
cooperation does not cause the increase in the
number of benefit reduction. For example, a piece of
BRIEF ANALYSIS ON PROFITS ALLOCATION OF IOT INDUSTRY CHAIN
167
cake, more big, if add more people, although less
share, but there is an increase in the cake.
The cooperation of all n individuals should bring
the greatest benefits, in a cooperative game among
the enterprises; each enterprise shall deserve their
share. Since some participants may contribute more
to the coalition than others, the question arises how
to distribute fairly the gains among the participants.
Or phrased differently: how important is each player
to the overall operation, and what payoff can they
reasonably expect?
We start out with a set I (of n players), S (S is
disjoint subsets of I and it is super additive.) and a
function V, that goes from subsets of players to
real’s and is called a worth (or value) function, with
the properties.
v(Φ)=0(1)
v(S1
S2)≥v(s1)+v(s2),s1∩s2=
φ
(2)
The interpretation of the function v is as follows:
if S is a coalition of players which agree to
cooperate, then v(S) describes the total expected
gain from this cooperation, independent of what the
actors outside of S do. The super additivity condition
(second property) describes the fact that
collaboration can only increase the benefits but
never hurt in a cooperative game.
()
niIvx
n
i
i
,...2,1,
1
==
∑
=
(3)
()
niivx
i
,...2,1, =≥
(4)
Where:
i
x
is the share of i player from the
maximum benefit of the cooperation v (I), clearly,
the successful cooperation must meet the above
requirements. The function (3) is called collective
rationality conditions; the sum of all the players'
value should equal the maximum available from the
game.
v ( I) must be splitting. Otherwise the players
will not agree. Also, the distribution of the total can
not exceed total benefits, or distribution would be a
"blank check”. These two cases both meet this
function:
()
Ivx
n
i
i
≤
∑
=1
.
Function (4) is called the individual rationality
conditions. We can understand that if player obtains
less in cooperation than it did alone, obviously, it
will not participate in the IOT industry chain.
When
Isi ⊂∈
,
() {}()
isvsv
−
=
is set up ,
Then
()
0=v
i
φ
(5)
This means that no contribution, no benefits.
i
s
is disjoint subsets of I and contains player i.
(
)
v
i
φ
is the amount that player i gets if the gain
function v is being used. The Shapley-value is given
as follows:
(
)
(
)
(
)
(
)
[
]
niisvsvswv
i
ss
i
,...,2,1,\ =−=
∑
∈
φ
(6)
()
(
)
(
)
!
!1!
n
ssn
sw
−−
=
(7)
s
is the number of players in the subset s. v(s)
is the amount of utility that the players of coalition s
can obtain from the game.
()
isv \
means the gains
of coalition s without i players.
()
sw
is weighted
gene.
The distribution of benefits based on Shapley-
value model is neither the average distribution, but
also different from the distribution of proportion of
investment costs, but on the importance to be
assigned a distribution produced in the process of
the overall profits in the IOT industry chain. In
comparison, the method has certain rationality and
superiority. However, this method also has some
limitations in considering the relationship among
enterprises, whose affection is not deep enough.
5 EXAMPLE ANALYSIS
Consider an industry chain of IOT, forming by three
companies A, B, C, A is provider for the sensor, B is
the telecom operator, C is the system service
provider.
Let A, B and C have 5, 10, 6 million RMB.
The coalitions
{
}
30,, =CBA
million RMB;
{}
20, =BA
million RMB;
{
}
15, =CA
million RMB;
{}
22, =CB
million RMB.
If the total profits divided equally, each firm
gains 10 million. Clearly, this method can not
inspire the parties, especially for B Company, the
interest did not increase, therefore, may be unwilling
to join the industrial chain. How to allocate 30
million reasonable? The Shapley value method will
give us the answer.
We say that the coalitions
{}
CBA ,,
is I= {1,2,
3},
And note independent business profit v (1) = 5, v
ICEIS 2011 - 13th International Conference on Enterprise Information Systems
168
(2) = 10, v (3) = 6. The value of a coalition S = {1,
1 U 2,1 U 3,1 U 2 U 3} is the sum of parties for
the efficient allocation when the set of participating
agents must include 1.From the above, we can know
v (1 U 2) = 20, v (1 U 3) = 15, v (2 U 3) = 22, v (1 U
2 U 3) = 30. Grinding through the Shapley value
calculation (see the third section), the value of the B
enterprise distribution of benefits is calculated as
follows:
Table 1: Shapley- value calculated.
2
s
{}
2
{}
2,1
{}
3,2
{
}
3,2,1
v(s) 10 20 22 30
()
2/sv
0 5 6 15
() ( )
2/svsv −
10 15 16 15
()
() ( )
[]
2/svsvsw −
10/3 5/2 8/3 5
(
)
()
(
)
(
)
[]
5.132\
2
2
=−=
∑
∈
svsvswv
ss
φ
Similarly we
can easily get
()
v
1
φ
=7.5 million,
()
v
3
φ
=9 million.
Finally, we get the allocations of A, B, C which add
up to the entire 30 million.
The share of three enterprises is greater than the
interests of their individual production or greater
than any gain from the two co-production, that is
,greater than the overall effectiveness of their
production and operation of a gain, which is not only
the basis of stability of industry chain, but also the
reason why we should establish the industry chain of
IOT.
We set the initial data by analyzing the
importance and risks taken by the players and other
factors. With the development of the industrial
chain, the distribution of benefits will gradually be
clear and data oriented. In short, the construction of
the industrial chain of IOT is very important, and the
reasonable profits allocation is the foundation of the
development of the chain.
6 CONCLUSIONS
This paper analyzes the relationship and interaction
among various enterprises in the IOT industrial
chain. In order to promote the collective interests
and to resolve the distribution of benefits in the
industry chain, product pricing from the middle of a
detailed analysis of the distribution relationship
between the interests of enterprises then establish the
distribution of benefits with Shapley-value model,
further analysis positive relationship between
distribution benefits and contribution of participants
in industry chain. Besides, the distribution of
benefits should follow the principles as put forward,
there is some reference significance.
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