PROCESS INTEGRATION FOR SERVICE ORIENTED
NETWORKED APPLICATIONS
Xianpeng Huangfu
1
, Aimin Luo
1,2
1
National Key Laboratory of Science and Technology on Information System Engineering
National University of Defense Technology, China
2
Informatics Research Center, University of Reading, England
Li Huang
1
, Honghui Chen
1,3
, Xueshan Luo
1
1
National Key Laboratory of Science and Technology on Information System Engineering
National University of Defense Technology, China
3
Department of Computer Science, University of Leicester, England
Keywords: Process Integration, Service Oriented Architecture, Networked Applications.
Abstract: With the development of information, the paradigm in distributed networked applications is shifting towards
Service Oriented Architecture, which has some good quality of louse coupled, reused, opened and integrated
attributes. Single service can only satisfy some certain requirement, only large scale of integration can solve
the conflicts between demands and supply. It involves three layers’ integration, the bottom data integration,
the middle process integration and the uppermost architecture integration. The paper mainly focuses on the
middle process integration. The paper makes use of object Petri net language to construct five meta-models
of sequence, alternative, parallel, arbitrary sequence, and iteration operations and studies some
characteristics of these meta-models. On the basis of the above analysis, we make further research on
process integration methods and models. Finally, process integration algorithm and analysis are made,
which verifies the improvement of process analysis and implementation efficiency.
1 INTRODUCTION
As the development of information technology and
software architecture, Service Oriented Architecture
(SOA) has been paid more and more attention. The
paradigm in distributed networked applications is
shifting towards Service Oriented Architecture
where services play as basic elements. SOA has
some good quality of louse coupled, reused, opened
and integrated attributes. However, users’
requirements become more and more complicated,
and single service can not satisfy the needs any
more. Service integration is needed to realize
complicated business requirement.
Service integration is a process that existed
services are dynamically discovered under certain
rules, and are organized as a large service or system,
to satisfy users’ complicated needs and improve the
software productivity. With the growing number of
alternative services that provide the same
functionality but differ in quality parameters, and the
business process becomes more and more
complicated, service integration is not just
concerned with the services themselves. Service
integration contains the bottom data integration, the
middle process integration and the uppermost
architecture integration. In recent years, some simple
process integration applications have been used
widely by many service vendors such as airline
companies and hotels to satisfy their customers’
various demands and improve their profits.
It is more desirable if the whole process can be
determined in advance. Some research on Markov
process and Petri Net workflow is partially similar to
process integration, which gives us some instructive
inspiration. Only considering the bottom data
integration without the high level process integration
is not a practical solution for service oriented
applications. The process integration paradigm and
its realization provide a promising solution for the
236
Huangfu X., Chen H., Luo X., Huang L. and Luo A.
PROCESS INTEGRATION FOR SERVICE ORIENTED NETWORKED APPLICATIONS.
DOI: 10.5220/0003266902360241
In Proceedings of the Twelfth International Conference on Informatics and Semiotics in Organisations (ICISO 2010), page
ISBN: 978-989-8425-26-3
Copyright
c
2010 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
seamless integration of service oriented applications
to create new value-added services.
The rest of this paper is organized as follows.
Section 2 introduces the framework of integration
for service oriented networked applications. Section
3 proposes the process integration based on object
Petri net. In Section 4, we will discuss the related
work. Finally, Section 5 draws the conclusion and
future work.
2 FRAMEWORK INTEGRATION
FOR SERVICE ORIENTED
NETWORKED APPLICATIONS
Service oriented networked applications has become
more and more popular. To study architecture
integration hierarchy structure is of great necessity
for the inner process integration.
2.1 Overall Integration Framework
Lots of systems have adopted service oriented
architecture as a novel solution to high efficiently
implement on the net. SOA has the excellent
characteristics of louse-coupled, reused, opened and
integrated attributes, which has the special kinds of
data structure, process construction and top-level
architecture. Now the popular data structure for
service oriented networked applications is based on
XML schema. In the middle level, the process
modeling and construction are the basic mechanism
to fulfill the function of the systems. On the top
level, the system architecture is the blue print
governing the system design, implementation and
evolution over time..
Figure 1: The overall integration framework.
The overall integration framework is depicted in Fig
1. The third level is the fundament data layer, which
depicts the XML-based schema, and is involved
with XML-based data integration. The second level
is the process layer, which depicts the process
modeling and is involved with process integration
mechanism. And the first level is concerned with
architecture integration for service oriented
networked systems.
Certainly, the all three layers are not isolated by
each other; and the successful operation of each
layer is dependent on the support and restriction of
other two layers. For example, the process
integration should consider the specific data
structure and realized manner. Different data
structure determines the upper algorithm and
integrated method. On the other hand, the process
integration should also consider the framework of
the system. Because each bottom detail is carried out
under the constraints of the system architecture.
Some conflict and inconsistency will result in the
communication congestion and difficulty, even the
whole system redesign and reconstuction.
2.2 XML-based Integration
XML has become the de-facto standard format for
representing structured amd semi-structured data
among various applications and databases on the
Web. The Document Type Definition (DTD) or
W3C XML Schema definition language (WXS) can
be used to define the standard schema which
describes the syntax and structure of XML
documents. XML schema is a formalized description
language, which uses lots of announcement sentence
to ensure the standardization. Here we just give a
simple entity integration example based on XML.
<? xml version=’1.0’ ?>
<! DOCTYPE a SYSTEM “keyvalue.txt”[
<! ENTITY % key “Coke” > <! ENTITY
% value “Good”>
<! ENTITY % key “Tea” > <! ENTITY %
value “Delicious”>
]>
<a>&Coke;</a>
<a>&Tea;</a>
The fundamental data integration is foundation
stone to study integration field The XML-based
integration is not so easy just like the above codes.
We should consider the data storage manner, data
accessing interface, syntax and semantic confliction,
and so on. Because of the standard description
PROCESS INTEGRATION FOR SERVICE ORIENTED NETWORKED APPLICATIONS
237
manner of XML, the integration of data layer
becomes much easier than some other data structure.
2.3 Architecture Integration
As the definition of DoD Architecture Framework,
Architecture is the structure of components, their
relationships, and the principles and guidelines
governing their design and evolution over time. The
architecture is involved with all the upper design and
lower detail realization, so the architecture
integration is much more complicated not only for
the service oriented systems, but also for other
various systems. By the methods of process
reconstruction, function optimization, and structure
reconstruction, architecture integration will establish
an integrative platform.
Figure 2: The common architecture integration structure.
Fig 2 depicts the common architecture integration
structure, which contains three research fields:
physical integration, information integration and
application integration. Thereinto, the application
integration is the hot research field and can be
subdivided into organization integration, knowledge
integration and process integration. The paper
mainly focuses on the process integration in the
application layer. On the other hand, SOA has been
proven to be a flexible and extensible architecture
for designing and realizing industry solutions and
networked applications. The process integration in
such a specific architeture should be paid more
emphases to the process cooperation, redundancy
elimination and overall optimization, and so on.
3 PROCESS INTEGRATION
BASED ON OBJECT PETRI
NET
A multitude and diversity of networked applications
appear on the net.To hunt for a flexible and efficient
process integration method is of great help to save
network resources and improve service quality.
3.1 Object Petri Net (OPN)
Petri Net is a kind of modeling tool which is fit for
describing and analyzing discrete dynamic system,
especially parallel system.
The information carried by Place, Transition and
Token in Petri Net is not rich, and is short of
semantic description function. The space explosion
problem of Petri Net limits the modeling and
analysis ability for large systems. In order to satisfy
the requirement of modeling and simulation of
C4ISR systems, Object Petri Net Modeling
Simulation Environment is developed by the C4ISR
key lab of National University of Defense
Technology. The Object Petri Net Description
Language (OPDL) is designed. The service
description, arithmetic operator analysis, process
integration and modeling simulation in the paper are
based on OPN and OPMSE.
Definition 1 The service OPN formalized
description is an eight-tuples
0
(,, , , , , , )cpS P T SubS IP OP F M C
=
:
1)
P
is the place set of service state,
T
is the set
of Transition,
SubOBJ is the set of sub service
objects.
2)
IP is the set of service input ports, OP is the
set of service output ports. The input and output
interfaces are divided into two kinds: interior input
port
IIP , exterior input port OIP , interior output
port
IOP , exterior output port OOP . The objects
interact with their sub service objects by
IIP and
IOP , and interact with exterior users and simulation
environment by
OIP and OOP .
()SIP N and ()SOP N denote the sets of exterior
input ports and output ports of all sub objects,
()
() ( )
obj SubOBJ N
SIP N OIP obj
∈
=
U ,
()
() ( )
obj SubOBJ N
SOP N OOP obj
∈
=
U .
3)
F is a flow relation in service composition,
F P T T P IIP T T IOP OIP T T OOP⊆× × × × × ×UU U U U
.
4)
0
: ( ) (0,1, 2,...)M P IIP IOP OIP OOP →UU U U
is
the initial mark, and represents the state mark.
5)
C IOP SIP SOP IIP SOP SIP⊆× × ×UU is link
relation.
In Fig 3, the numbers in Place and Port denote
initial mark, called Token number. A pane with
crewel in the middle denotes object. A concentric
cirque denotes input port. A cirque embedded a
ICISO 2010 - International Conference on Informatics and Semiotics in Organisations
238
triangle denotes output port. Here
0S denotes a
switch. A switch is lighted when it receives a token,
but it doesn’t set each place a token. First the switch
executes an act function and finishes the
distribution. According to the designed token type in
the channel, the token is distributed to appropriate
place.
Figure 3: Object Petri Net example.
There are five kinds of functions in the object Petri
Net modeling simulation environment designed by
National University of Defense Technology. The
according relation is depicted in table 1. The
function is written by VBScript, which extends the
element attribute and strengthen the support of
modeling simulation. In this paper we mainly use act
function in switch and event handing function in
place.
Table 1: The relation of functions and elements in
OPMSE.
Function Type
Obj-
ect
Pla-
ce
Trans-
ition
Swi-
tch
Arc
Port
Instantiation
Y
EventHanding
Y
Y
Y
Y
Act
Y
Y
Delay
Y
Y
Predication
Y
Y
3.2 Process Integration Meta-model
According to process integration requirement, we
define five kinds of meta-models based on the
description of OPN. The sequence operation
definition is shown below, which can realize the
sequence operation in the process integration.
Definition 2 sequence operation: Service
12 0
(,, ,,,,,)S S S P T SubS IP OP F M C=⊥ = , ⊥ is the
sequence operator of service composition.
Here
111 1111101
(,, , , , , , )S P T SubS IP OP F M C= ,
222 2222202
(,, , , , , , )S P T SubS IP OP F M C= , depicted in
Fig 4:
Figure 4: Service sequence operation.
12
PPP= U
;
12
{}TTT t= UU ;
1212
{, }SubS SubS SubS cpS cpS
=
UU ;
1
IP IP
=
;
2
OP OP
=
;
12 1 2
{( , ),( , )}
F
FF OPttIP⊆ UU ;
01020
M
MM
=
× ;
12 12
CCC OPIP⊆×UU ;
Table 2 expresses the five kinds of meta-models for
process integration., which are sequence, parallel,
alternative, arbitrary sequence, iteration operations.
They can fulfill the according function like their
names’ expressions.
Table 2: Five meta-models and the arithmetic operators.
Meta-
models
Expr-
ession
Arithmetic operator
sequence
operation
⊥
12 0
(,, , , , , , )SS S PTSubSIPOPFMC=⊥=
parallel
operation
||
12 0
|| (,, ,,,,,)SSS PTSubSIPOPFMC
=
=
alternative
operation
⊕
12 0
(,, , , , , , )S S S P T SubS IP OP F M C=⊕ =
arbitrary
sequence
Θ
12 0
(,, , , , , , )S S S P T SubS IP OP F M C
=
Θ=
iteration
operation
μ
10
(,, , , , , , )S S P T SubS IP OP F M C
μ
=
=
According to the above five meta-models, we can
get more complicated arithmetic operators. Table 3
shows some deductive arithmetic operators from
five basic meta-models. For arithmetic operator (1),
the three services
123
,,SSS ,
12 3
()SSS S=⊥⊥ ,
123
'()SS S S
=
⊥⊥, the inputs are all
1
IP , the outputs’
end marks are all
3
()
e
M
OP , So we can
get
'cpS cpS
=
. In the same way, the other arithmetic
operators can be proofed.
Table 3: Some deductive arithmetic operators from five
basic metamodels.
12 31 23
() ()SS SS SS
⊥
⊥=⊥ ⊥
(1)
12 3 1 23
( || ) || || ( || )SS S S S S=
(2)
12 31 23
() ()SS SS SS
⊕
⊕=⊕ ⊕
(3)
1221
SSSS
⊕
=⊕
(4)
12 3 13 23
()()()SS S SS SS⊕⊥=⊥⊕⊥
(5)
123 13 23
()||(||)(||)SSS SS SS
⊕
=⊕
(6)
12 1 2 2 1
()()SS S S S SΘ= ⊥ ⊕ ⊥
(7)
11 1 1 1
...SSS SS
μ
μ
=
⊥⊥⊥
6
44474448
(8)
PROCESS INTEGRATION FOR SERVICE ORIENTED NETWORKED APPLICATIONS
239
3.3 Process Integration Algorithm
By making use of OPN methods and tools, we get
the formalized description of service and process.To
study the input, output, control and Mechanism of
process integration for service oriented networked
applications, we can comprehend the integration
schema more clearly. The ICOM of process
integration is depicted in Fig 5.
Process to be
integrated
Process
integration
products
Process integration for
service oriented networked
applications
OPN methods
and tools
metamodels
Process integration
goal, rules and scope
Figure 5: The ICOM of process integration.
Service oriented applications are based on the XML
data schema, and standard architecture description.
Then we studies the five basic meta-models based
on OPN and their arithmetic operators. In algorithm
1, we will introduce an algorithm to do the process
integration.
Algorithm 1: Process Integration Algorithm
Require:Candidate process,
Requirements
1. Input the candidate process set,
then create the according requirement
space
2. Analyze the candidate process by
integration meta-models to produce the
basic elements and mutual relation.
3. Analyze the rules and constraints
of the requirement to produce the
formalized restriction.
4. Under the rules of overall
architecture, reconstruct the basic
elements of candidate process
5. For the desired process
integration, eliminate redundancy and
optimize the whole process
6. Process integration is done.
According to Algorithm 1, we could divide the
candidate process into basic elements, and
reconstruct the process integration, then eliminate
redundancy and optimize the whole process, finally
reach successful process integration.
4 RELATED WORK
Mayerl etc. present an approach how demands on
applications can be derived from service
management processes as extensions of traditional
management processes. To extend traditional
management applications with additional service
management applications they propose an
integration based on a service-oriented architecture.
Hentrich etc. introduce a pattern language that
deals with process modeling, execution, and
integration. Its main goal is to help solution
architects, as well as process and service designers,
to master the challenges in designing a stable and
evolvable process-driven SOA.
To synthesize existing IT resources and make
them integrated and cooperative to gain maximum
benefit, Jing Bo etc. put forward an architecture for
business process orchestration and integration based
on the philosophy of service-oriented architecture.
According to the architecture proposed, a platform
was implemented using service-oriented technology.
Real-world application shows that the platform can
meet the current industry needs well.
Kong.Jaehyun etc. introduce a methodology that
uses event-driven service technology and active rule
processing for business process integration of
ubiquitous enterprises. The event-driven approach to
business process integration can supplement the
service-oriented enterprise architecture by
facilitating real-time event processing and
distributed service coordination.
Shah, Vikas S etc. introduce an RT-ECM
architecture framework illustrating most prominent
technical challenges during establishment of
business process perceptive integration and time
sensitive content flow management. Real-time
content management engines, business process
engines, and service provisioning are at the centre of
presented framework.
5 CONCLUSIONS AND FUTURE
WORK
According to the characteristic of service oriented
networked applications, the paper studies the overall
integration framework, which can be divided into
three layers. We make some discussions about the
fundamental XML-based integration and the
uppermost architecture integration. The core of the
paper mainly focuses on the middle process
integration. We make use of object Petri net
language to construct five meta-models of sequence,
alternative, parallel, arbitrary sequence, and iteration
operations and study some characteristics of these
meta-models. On the basis of the above analysis, we
make further research on process integration
methods and models. Finally, process integration
algorithm and analysis are made, which verifies the
ICISO 2010 - International Conference on Informatics and Semiotics in Organisations
240
improvement of process analysis and
implementation efficiency
In the future, we will continue to focus on the
fields of the middle process integration and the
upper architecture integration. Improving the
efficiency of process integration, studying the
uppermost architecture integration, and the design
and realization of prototype system are three
research aspects.
ACKNOWLEDGEMENTS
This research has been partially funded by the
National Natural Science Foundation of China under
Grant No.70601036, and Hunan Provincial
Innovation Foundation For Postgraduate.
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