ESTABLISHING FOOD TRACEABILITY SYSTEM
BASED ON GAME THEORY
From the Perspective of Retailers
Wei Jin-shi and Lan Hong-jie
School of Economics and Management, Beijing Jiaotong University, Haidian District, 100044 Beijing, China
Keywords: Traceability system, Food supply chain, Game theory.
Abstract: Retail terminal is a weak link of the whole food supply chain in establishing the food traceability system,
and also a key link in realizing traceability food value. This paper firstly analyzes the influence factors of
retails adopting food traceability technology, then makes a game model to analyze three situations: non-
government subsidy; the same government subsidy for adopting the traceability technology and higher
subsidy for who adopts the system first. According to the analysis, the conclusion is drawn: it is unrealistic
to ask all of retails to adopt food traceability technology; corresponding policy should be made to inspire a
part of retails adopting the system first.
1 INTRODUCTION
The traceability system was first used in product
recall system of industrial product such as
automobiles or planes, and later was applied to food
safety control, as food issues become increasingly
important. To the relatively new food traceability
system, many domestic and foreign scholars have
carried on massive basic researches.
The European commission (EC178/2002) defines
food traceability as traceability or retroactive ability
to food, feed, edible animals and all matter that
might be composition of food or feed, in each link of
production, processing and sales. International food
Codex Alimentary Commission (CAC) and
International Organization for Standardization (ISO)
defines traceability as the ability to track the history,
use or position of commodities or behaviour,
through the registered identification number. Fang
Yan et al. (2005)
define food traceability system as
continuity security system of information flow on
each food supply stage.
To the features of traceability system, domestic
and foreign scholars have also done a lot of research
work. Danish scholar Moe T. (1998)
thinks the
traceability system consists of products and
production activities. According to the scope of
implementation, it can be divided into the
traceability system between enterprises and the
traceability system within enterprise. American
scholar Elise Golan (2004)
thinks traceability system
refers to the record system of tracking a product or
product characteristics in entire process or supply
chain system, and set three standards to measure the
traceability system, according to the difference of
traceability system characteristics: breadth, depth,
precision. Shi Yan-tao (2006)
thinks food
traceability product also has positive externality and
network economy features.
At present, scholars’ researches on the
traceability system are mainly aimed at the whole
supply chain or production and processing links on
supply chain, but there is few researches aimed at
the retail enterprises on the end of supply chain.
Chen Hong-hua etc(2009) analyzes the retailers’ role
and status, from the angle of supply chain, and puts
forward related suggestions of retailers' role and the
measures should be taken to establish China's
agricultural product traceability system. On this
basis, this paper studies the factors that influence
retail enterprises on traceability system implement,
and establishes game model to quantitatively
analyze the timeliness of the traceability system.
368
Hong-jie L. and Jin-shi W..
ESTABLISHING FOOD TRACEABILITY SYSTEM BASED ON GAME THEORY - From the Perspective of Retailers.
DOI: 10.5220/0003585003680372
In Proceedings of the 13th International Conference on Enterprise Information Systems (SSSCM-2011), pages 368-372
ISBN: 978-989-8425-54-6
Copyright
c
2011 SCITEPRESS (Science and Technology Publications, Lda.)
2 THE PRESENT SITUATION
OF RETAILERS ADOPTING
THE FOOD TRACEABILITY
TECHNOLOGY
Retail enterprises are at the end of the entire supply
chain, contacting with the production, processing
and consumers, and are main route and channel for
consumers to find traceability information of
products, playing an important role as a bridge in
entire food traceability system. In addition, retail
enterprises take a increasingly dominant position in
the entire supply chain, and play a more and more
predominant role in the supply chain. Therefore,
retail enterprises implementing the traceability
technology could further promote the establishment
of the whole supply chain food traceability system.
2.1 Analyzing the Present Situation
of Retailers adopting the Food
Traceability Technology in Our
Country
At present, a few retail enterprises have equipped
with food traceability information query system, but
overall implementation condition is not ideal.
During Beijing food logistics investigation process,
it is found that only a few large supermarkets fixed
food traceability information query system, and
those equipments are often closed, in order that
consumers cannot query. But there is some
difference between truly finding the information
terminal system provided in the inquiry and the
whole process information query mentioned in the
traceability system. Information quantity is less in
the former, and it doesn't provide complete
information traceability really.
2.2 Analyzing the Influence Factors
of Retailers adopting the Food
Traceability Technology
Yang Qiu-hong (2008) thinks that factors
influencing cost of enterprises to establish the
traceability system include: the depth, width and
accuracy of the traceability system, the cooperation
relationship between the enterprise and the upstream
and downstream departments, enterprise production
process, technological factors. Factors influencing
profit of enterprises to establish the traceability
technology include mainly consumers’ willingness
to pay for the traceability food, probability of food
safety issues, the loss the food safety issues bring to
enterprise, the improvement of supply chain
efficiency after the establishment of the traceability
system, product differentiation and branding. The
author thinks retail enterprises whether to implement
the traceability technology will also influenced by
government support strength, competition between
colleague enterprises.
From the perspective of cost and profit, internal
game will happen in retail enterprise when deciding
whether to implement the traceability technology.
Overall, with the passage of time, implementing
subject of the traceability technology has a deep
knowledge of the system research, and accordingly
the management and technology level enhances
unceasingly. Therefore, the later the enterprise
implement the traceability technology, the less cost
they burden. On the other hand, with the passage of
time, the knowledge of the consumer to food
traceability technology increasing, and their
willingness to pay for the traceability technology
increases, too. Therefore, the earlier the enterprise
implements the traceability system, the more profit
they obtain.
From the perspective of competition, balanced
game will happen between retail enterprises when
deciding whether to implement the traceability
system. The enterprises taking the lead to use the
traceability system, will plunder the parts of the
market competition, but should burden higher cost,
and also consider that competitor will regain market
share after implementing the traceability technology;
the enterprises later using the traceability technology
will enjoy low cost but should undertake the risk of
losing market.
Therefore, when implementing the traceability
technology,retail enterprises should balance cost
and benefit, and the competition between the
colleagues, in order to attain their total profit
maximization.
3 ANALYZING THE TIMING
OF THE TRACEABILITY
TECHNOLOGY FOR
RETAILERS BY GAME MODEL
3.1 Basic Hypotheses
Supposing that there exist only two retailers in a
certain region and they are A and B. In order to
facilitate the calculation and without loss of
generality, let’s suppose that the market share of this
ESTABLISHING FOOD TRACEABILITY SYSTEM BASED ON GAME THEORY - From the Perspective of Retailers
369
region is divided equally by these two retailers. And
retailer A adopts the traceability technology first and
B later. If A makes the adoption at time
1
t and B at
time, it is apparent that
12
tt≤
.The consumers’
demand Q for food in the short term is constant.
Then the sales volume of traceability products can
be
β
*Q, in which
β
is the consumers’ preference
degree to buy traceability products. We can get
β
by
1
kt
e
β
−
=−
where k is a constant. It means that
consumers’ preference degree improves with
increasing time.
(
)
t
υ
is the benefit rate at time t and
S=
12
(, )
s
s means the adoption strategies of A and B,
in which A adopts strategy
1
s
and B adopts
2
s
.When
i
s
=1 it means that the traceability
technology is adopted, but when
i
s
=0, the system is
not adopted. Then the total benefit rate of A and B
when they each makes different strategies can be
shown as below:
()
12
12
12
12
1
Qr ( , ) (1,1)
2
1
(1 ) ( , ) (1, 0)
2
1
(1 ) ( , ) (0, 1)
2
1
Qr ( , ) (0, 0)
2
ss
Qrss
vt
Qrss
ss
β
β
⎧
=
⎪
⎪
⎪
+=
⎪
=
⎨
⎪
−=
⎪
⎪
⎪
=
⎩
Where
r
is the average profit of retail products.
The adoption cost of the traceability can be
calculated by
()
kt
ct ae
−
=
and it means that with
time increasing, the management and technology
level of the traceability technology will be gradually
improved so that the adoption cost for retailers will
become lower and lower. The discount rate is
α
and
()
tΖ
is the expected benefit increase after the
adoption of the system.
3.2 Model Analysis
According to the actual situation, this paper has
mainly considered three situations: non-government
subsidy; the same government subsidy for adopting
the traceability technology; higher subsidy for who
adopts the system first.
3.2.1 The Non-government Subsidy
Situation
Without the adoption of the traceability technology
the benefit rate per unit of time for A is
1
Qr
2
; when A
adopt the system before B, it is
1
(1 )
2
Qr
β
+
; if A
adopt the system after B, it becomes
1
Qr
2
. Therefore,
the expected benefit increase for A is:
() ()
2
12
1
1
1
1
11
t1
22
1
c(t )
2
t
tt
tt
t
t
t
QredtQredt
Qre dt e
αα
α
α
β
+∞
−−
+∞
−
−
Ζ= + +
−−
∫∫
∫
(1)
Calculate the first derivative of
(
)
1
tΖ
and we can
get:
*
1
1Qr
t
Qr 2a( k)k
α
⎡
⎤
=−
⎢
⎥
++
⎣
⎦
㏑
When
11
tt
∗
=
, A can get the maximum benefit.
When A has adopted the system, if B gives up
adopting it
()
2
1
t(1)
2
Qr
ν
β
=−
; if B also chooses to
adopt the system,
()
2
1
tQr
2
ν
=
. Therefore, the
expected benefit increase for B is:
() ()
22
2
2
2
11
t1
22
()
tt
tt
t
Qre dt Q re dt
ct e
αα
α
β
+∞ +∞
−−
−
Ζ= − −
−
∫∫
(2)
Calculate the first derivative of
(
)
2
tΖ
and we
can get:
*
2
1Qr
t
Qr 2a( k)k
α
⎡
⎤
=−
⎢
⎥
++
⎣
⎦
㏑
When
22
tt
∗
=
, B can get the maximum benefit.
That is to say, we had better to make
12
tt
∗∗
=
. Put
12
1Qr
Qr 2a( k)
tt
k
α
∗∗
⎡
⎤
==−
⎢
⎥
++
⎣
⎦
㏑
in (1) and (2) we can get:
()
1
*
1
t0
2( )
k
Qr
a
Qr a k
α
α
+
⎡⎤
Ζ
=− <
⎢⎥
++
⎣⎦
(3)
()
*
2
1
(2())
t
2( )
*0
2( )
k
kQr a k
ak
Qr
Qr a k
α
α
α
α
+
++
Ζ=
+
⎡⎤
>
⎢⎥
++
⎣⎦
(4)
It can be seen from (3) and (4) that: when A has
adopted the system first, B can get a higher benefit if
it also adopts the system than if not, so the best
strategy for B is that once A adopts the system, B
should too; if B chooses to adopt the system right
after A’s adoption, A’s benefit will decrease, so the
best strategy for A is not to adopt it.
From the above the conclusion can be drawn that
ICEIS 2011 - 13th International Conference on Enterprise Information Systems
370
without the government subsidy, retailer A and
retailer B will not adopt the traceability technology.
3.2.2 The Same Government Subsidy
Situation
Supposing that government provides the same
subsidy G to those who adopt the traceability
technology no matter who adopts it first, then the
expected benefit increase for retailer A is:
() ()
2
12
11
1
1
1
11
t1
22
1
()
2
t
tt
tt
tt
t
t
QredtQredt
Qre dt c t e Ge
αα
αα
α
β
+∞
−−
+∞
−−
−
Ζ= + +
−−+
∫∫
∫
(5)
Calculate the first derivative of
(
)
1
tΖ
and we
can get:
#
1
1Qr2G
t
Qr 2a( k)k
α
α
⎡⎤
+
=−
⎢⎥
++
⎣⎦
㏑
The expected benefit increase for retailer B is:
()
() ()
2
22
2
2
2
1
t
2
1
1
2
t
t
t
t
t
t
Qre dt
QredtcteGe
α
α
α
α
β
+∞
−
+∞
−
−
−
Ζ=
−− − +
∫
∫
(6)
Calculate the first derivative of
(
)
2
tΖ
and we
can get:
#
2
1Qr2G
t
Qr 2a( k)k
α
α
⎡⎤
+
=−
⎢⎥
++
⎣⎦
㏑
Put
##
12
1Qr2G
tt
Qr 2a( k)k
α
α
⎡⎤
+
==−
⎢⎥
++
⎣⎦
㏑
in (5) and (6) we
can get:
()
#
1
1
2G
tG
2( )
2G
2( )
k
k
Qr
Qr a k
Qr
a
Qr a k
α
α
α
α
α
α
+
⎡⎤
+
Ζ=
⎢⎥
++
⎣⎦
⎡⎤
+
−
⎢⎥
++
⎣⎦
(7)
()
1
#
2
1
2G
t
2( )
(2()) 2G
2( ) 2( )
k
k
Qr
Qr a k
kQr a k Qr
ak Qrak
α
α
α
α
αα
αα
+
+
⎡⎤
+
Ζ=
⎢⎥
++
⎣⎦
⎡⎤
++ +
+
⎢⎥
+++
⎣⎦
(8)
From (7) and (8) the following conclusions can
be got. For retailer A, when
(
)
#
1
tΖ
> 0 i.e.
Q2
Qar
G
rak
>
+
, the benefit will get increased if it adopts
the system and it should adopt the system at time
#
1
t
;
when
Q2
Qar
G
rak
<
+
, the benefit will get decreased if it
adopts the system so it should give up the adoption.
While for retailer B, since
()
#
2
t0Ζ>
, if A has
adopted the system first, the best strategy for B is to
adopt the system, too.
From the above the conclusion can be drawn that
if government provides the same subsidy to those
who adopts the traceability technology: when
(
)
#
1
t0
Ζ
>
, A and B will adopt the system at the same
time; when
(
)
#
1
t0
Ζ
<
, neither A nor B will adopt the
system.
3.2.3 The Discrepant Government Subsidy
Situation
Supposing that government provides subsidy
1
G to
who adopts the traceability technology first and
2
G
to who adopts it later and
12
GG>
. Then the
expected benefit increase for retailer A is:
() ()
()
2
12
11
1
1
11
11
t1
22
1
2
t
tt
tt
tt
t
t
QredtQredt
Qre dt c t e G e
αα
αα
α
β
+∞
−−
+∞
−−
−
Ζ= + +
−−+
∫∫
∫
Upon calculation, when
()
1
tΖ
gets the maximum
value
(
)
1
t
⊗
Ζ
,
1
1
Qr 2 G
1
t
Qr 2a( k)k
α
α
⊗
⎡
⎤+
=−
⎢
⎥
++
⎣
⎦
㏑
. The expected
benefit increase for retailer B is:
() ()
()
2
12
22
1
2
22
11
t1
22
1
2
t
tt
tt
t
t
t
t
QredtQredt
Qre dt c t e G e
αα
α
α
α
β
+∞
−−
+∞
−
−
−
Ζ= − +
−−+
∫∫
∫
Upon calculation, when
(
)
2
tΖ
gets the maximum
value
(
)
2
t
⊗
Ζ
,
2
2
Qr 2 G
1
t
Qr 2a( k)k
α
α
⊗
⎡
⎤+
=−
⎢
⎥
++
⎣
⎦
㏑
When
(
)
1
t0
⊗
Ζ
>
: if
(
)()
12
tt
⊗⊗
Ζ>Ζ
, A can get a
higher benefit, so both retailers want to adopt the
traceability technology at time
1
t
⊗
; if
(
)
(
)
12
tt
⊗⊗
Ζ<Ζ
, A can get a certain benefit but B can
get more, so both retailers want to be the one who
make the adoption later and in this situation the
differentiation of government subsidy has lost its
meaning.
When
(
)
1
t0
⊗
Ζ
<
, A will get a decreased benefit
so no retailer will adopt the traceability technology.
ESTABLISHING FOOD TRACEABILITY SYSTEM BASED ON GAME THEORY - From the Perspective of Retailers
371
Above all, only when
(
)
1
t0
⊗
Ζ>
and
(
)
(
)
12
tt
⊗⊗
Ζ>Ζ
, can the differentiation of
government subsidy encourage retailers to adopt the
traceability technology earlier. What’s more, the
relevant numeric area of
1
G
and
2
G
can be get
from the above equations.
4 CONCLUSIONS
This paper has presented the current situation and
effect factors of retailer’s adoption of the traceability
technology, and made the game model to analyze the
timing of retailer’s adoption of the traceability
technology in three situations. Then, I reached the
conclusions: retails will not implement traceability
technology without subsidy; the measure of
providing higher subsidy for who adopts the system
first is
superior to others in term of timing and
government financial input.
In conclusion, it is rather
unrealistic to ask all
food retailers implement traceability technology.
However, if the government departments take the
measure of providing higher subsidy for who adopts
the system first, then c
ompetition among retails
would inspire other retailers to implement
traceability technology earlier, and a good basic for
food traceability standards would be set up.
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Golan E., Krissoff B., Kuchler F., et al. 2004, Traceability
in the U.S. food supply: Economic theory and industry
studies. Economic Research Service, U.S. Department
of Agriculture, Agricultural Economic Report.
Shi Yantao, 2006, Agricultural products traccability
system. Beijing: China agricultural university.
Chen Honghua, 2007, Research on agricultural products
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