2018 International Conference on Sensor Network and Computer Engineering (ICSNCE 2018) 

118 

 

Research on Robust Model for Web Service Selection 

Wei Yanxi 
a*

, Yu Fan
b
, Ma xing, Yu Haige, Yang Wenhui 

School of computer science and engineering  

Xi’an Technological University 

Xi’an, 710021, Shaanxi, China 

e-mail: 
b
512066020@qq.com,

a
407171251@qq.com 

*The correspoding author 

 

 
Abstract—Most existing service quality models use defined 

Quality of Service parameters for service selection.Since a 

large number of uncertainties exist, the QoS performance 

indicators in the runtime of the composite services obtained 

through the model and method based on the determined QoS 

will be worse even beyond the range acceptable to the users. 

Web services can solve this problem and become the most 

reasonable solution in the current application environment. 

Web services can solve this problem and become the most 

reasonable solution in the current application environment. In 

the process of actual service delivery, the key to the failure of 

the service composition to meet the requirements is caused by 

uncertain factors. In order to solve the above problems, this 

paper first proposes a local optimal selection model based on 

uncertain QoS. The Web service selection method based on 

uncertain QoS has been progressing in recent years. Second, in 

order to reduce the time spent on selection, a redundant 

service selection result is given. The experimental results on the 

data set show that the proposed model and method can 

effectively select more robust services for users. 

Keywords-Web Service; Quality of Service; Model Robust 

I. INTRODUCTION 

The service-oriented model must have three parts, the 
service provider, the client of the service, and the aggregator 
generated by the implementation service. It is well known 
that the tasks performed by the service provider usually 
provide not only the realization of services, but also the 
support for related technologies. The service client is a 
terminal organization that specifically utilizes the application 
service. In practice, it is the user. Compared with the services, 
it is possible to integrate all services into a new service and 
the goals are achieved. This is usually called business 
process. Services must remain technically neutral and need 
to follow some of the internationally recognized standards as 
much as possible. When calling a service, you must use 
standardized techniques. 

In this article, the focus is on the in-depth discussion of 
the characteristics of Web services. He is a self-describing, 
self-contained software module that can be used over a 
network. 

The software module not only can complete the tasks and 
solve the problems, but also can fully represent the user and 
the application program to handle the transaction. As defined 
in the definition, the current known Web services, the main 
structure is to establish a more application-oriented 
distributed computing infrastructure. The main content of a 

distributed infrastructure consists of many different 
application modules or interacting with each other to form a 
virtual logic system by communicating with the network or 
the public network. 

For the current research at home and abroad, QoS-based 
Web service selection algorithms mainly include: exhaustive, 
greedy, genetic, particle swarm optimization, ant colony 
optimization and algorithms. What this article uses is a 
robust QoS-aware, reliable Web service composition 
algorithm that is designed using robust algorithms. 

This paper mainly studies how to ensure that service 
portfolios are robust under uncertain conditions, thus 
avoiding the re-planning of portfolio services to some extent. 
The application of robust optimization method to service 
selection model based on uncertain QoS is described in 
detail. 

II. WEB SERVICES DISCUSSION AND ROBUST 
OPTIMIZATION 

A. Web service features 

Web services are mainly distributed computer 
technologies, which are based on XML and Internet 
technologies. Platform-independent, loosely-coupled, 
self-contained, programmable Web-based applications are 
used for development-oriented, interoperable applications 
that can use open XML standards to describe, publish, and 
discover. Coordinate and configure these applications, these 
are all part of the full definition of Web services. The basic 
architecture of Web services consists of 3 participants and 3 
basic operations for example, Figure 1. 

 

Service Provide

Service Broker Service ProvideFind

 
Figure 1. The basic architecture of Web services 

The combined strategy of Web services provides a 
global-wide information infrastructure for the development 
of Internet technology. 



2018 International Conference on Sensor Network and Computer Engineering (ICSNCE 2018) 

119 

 

This continuously expanding infrastructure forms a 
resource-rich computing platform and forms the basis of 
human society's information . Therefore, a single atomic 
Web service can no longer satisfy the diversified and 
personalized needs of users. The existing Web services have 
become the most effective and direct resources to solve the 
current problems encountered. From the perspective of Web 
properties, Web services are loosely coupled and highly 
integrated. These two features are Web services. The 
combination offers possibilities. 

 

Resqurce

Service Profel

Service

Service Mode

Service Grounding
Provides Supports

D
e

s
c
r
ip

t
io

n

 
Figure 2. Describing the relationship of information services 

B. The role of QoS in service selection 

QoS is actually a kind of ability to express Web services. 
If you can achieve the requests needed to respond to 
expectations in the application process, not only can you 
complete related tasks, but also the quality of service 
provided by different users of service providers. Introducing 
QoS into Web services and using QoS of Web services to 
distinguish Web services with similar functions are the 
mainstream technologies currently applied in society. 
QoS-based Web service selection is gradually playing an 
increasingly important role in service composition. 

The increasing complexity of component-based Web 
services building services in the current development and the 
increasing trend of their associated systems is due to the 
development of Web composition technologies. The problem 
of Web service composition is a well-known issue in 
mainstream development. On the one hand, Web services 
that run on different platforms in their heterogeneous 
systems can be created in different ways, or can be 
implemented in different languages. Or it can be provided by 
different suppliers, and its source and structure are various. 
How to choose the right Web service composition system to 
build the required composite service is an important research 
direction. 

C. Robust optimization overview 

Robust optimization has a wide range of application 
bases, and most of the studies on traditional optimization 
problems are deterministic. Establish a rationalized model in 
the process to ensure that it is essential for every aspect of 
the entire Web service process. The goal of robust 
optimization is to find a solution that can handle all possible 
uncertain data. The robust optimization proposed by Soyster 
is to consider the "worst case" when the disturbance is 
maximum, that is, to consider the most unfavorable situation, 
transform the uncertainty plan into a deterministic 

corresponding model, and obtain a robust optimal solution 
by solving the deterministic correspondence model. Since 
this model only considers the worst case, the result obtained 
is too "conservative", which means that this result is only a 
better solution for the possible realization of all uncertain 
data. The later research focuses on how to keep the solution 
optimal while maintaining the optimality of the solution. At 
the end of the last century, Ben-Tal and Nemirovski gave the 
robust equality problem of converting the linear 
programming to the secondary cone programming under the 
"ellipsoidal" uncertain set. However, after the conversion, 
the problem is more complicated and difficult to calculate. 

In 2003, Bertsimas and Sim proposed a new robust 
model and obtained the solution considering both optimality 
and robustness. At the same time, the probability of the 
solution violated the constraint was analyzed. Then the 
uncertain discrete problem was studied to solve the network 
flow problem. A discrete robust model is given for the object. 
Based on the above two theoretical methods, domestic 
scholars apply robust optimization to supply chain planning, 
network flow, and logistics planning. Generally, in the 
service selection process based on QoS determination, it is 
often necessary to aggregate different QoS attribute values of 
the same service as the value for calculating or comparing 
the same service, or to determine the same attribute of 
different services according to the determined combined 
service workflow. The aggregate becomes a global property 
value. However, in the case of uncertain QoS, because the 
description methods of QoS attributes themselves are not the 
same, there are differences in the description of the 
uncertainty of different QoS, it is difficult to use different 
methods of the same service to determine the value of 
different attributes of the same service. Get together. For 
example, suppose that the response time fluctuation range is 
[rt1, rt2] and the throughput fluctuation range is [tp1, tp2]. 
The smaller one is, the better, and the bigger the other is, the 
better is the different types, the units are different, and the 
numerical quantities are different. It is difficult to aggregate 
two attributes with uncertainty in a way that determines the 
model using 0-1 normalization combined with a weighted 
sum. At the same time, because of the uncertainty of QoS, it 
is difficult to obtain the uncertainty of the global QoS in the 
solution process according to the superposition (such as 
response time superposition) or continuous multiplication 
(such as reliability multiplication) without affecting the 
solution result. 

Therefore, this article will establish local optimization 
service selection model for a single QoS attribute. Assume 
that there are n tasks in the workflow of a composite service, 
and there are a large number of Web services in each task. 
These services can complete the task and they have different 
functional attributes. This article discusses the service 
selection under the local optimal strategy. We mention that 
the local optimal strategy is to select individual service 
classes and examine the candidate atomic service sets of 
each abstract service class. Workflows have control 
structures such as sequence, selection, loop, and parallel. 
Without losing the generality, it is assumed that a sequential 
process with 4 tasks is used as the combined service process 



2018 International Conference on Sensor Network and Computer Engineering (ICSNCE 2018) 

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model in this paper, and service selection is performed for 
the first task in the process. 

III. EXPERIMENTS 

A. Experiment analysis 

The environment used in this experiment was 
TensorFlow-gpu 0.12.1 open source software library, 
Windows 7In order to verify the effectiveness of the 
proposed method, a prototype system of Web service test and 
selection management was developed in the early stage of 
the research. In the past, researchers usually used solving 
data to determine the model, using data to measure the 
service QoS alone, or randomly generating some values 
within a range for simulation. In this paper, researches and 
calculations are conducted on uncertain data. Uncertainty in 
the use of the service description cannot be confirmed by a 
single test or a randomly generated value. 

The minimum response time of the service call can 
reflect the level of its optimality; the maximum response 
time reflects the level of robustness; the expectation reflects 
the average response value of the response time; the variance 
mainly reflects the response time of each call. The deviation 
from the expected response time of the service, that is, the 
smaller the variance, the smaller the response time of service 
invocation and the more stable. 

B. Experiment Datasets 

Adjust the value of  . In the experiment, since   can 
only take values between [0,1], six values of 

 0,05.0,1.0,2.0,5.0,1  are chosen for solving. The specific 
results are shown in Table 1. 

TABLE I. SOLVING THE RESULT 

T values 1 0.8 0.5 0.4 0.2 0.3 0.05 0 

service 

number 
892 892 892 892 892 551 350 941 

Z*(T) 
0.54

60 

0.42

68 

0.31

30 

0.17

32 

0.10

58 

0.05

94 

0.00

50 

0.05

63 

IV. CONCLUSION 

This paper presents the application of robust optimization 
method in the selection of Web services based on uncertain 
QoS. On the basis of determining the QoS-based Web 

service selection method, considering the uncertainty of QoS, 
a single uncertain QoS service selection model based on the 
local optimal strategy is established. After the redundant 
service is removed, the robust optimization of the uncertain 
processing problem is used. The method converts and solves 
the service selection model based on uncertain QoS and 
obtains a solution that takes both robustness and optimal 
solution into account. In the final experiment, the paper 
verifies the validity of the proposed model and method, and 
verifies the effect of redundant service culling strategy on the 
efficiency of the solution. 

The Web service composition based on uncertain QoS 
has the following advantages: first, for software developers, 
paying attention to personalized Web service composition 
can improve user acceptance, enhance product 
competitiveness and enhance corporate reputation efficiency. 
Second, for users and users, the importance of personalized 
Web service composition can improve user productivity, 
reduce training and technology support costs, improve user 
comfort and satisfaction, and increase investment efficiency 
and efficiency of system construction. Third, personalized 
research under uncertainty will improve the accuracy of 
service provision, give full play to the potential of every 
service and the effect of other services cooperation. 

 

REFERENCES 

[1] S.Bing,C.Jiayong .Research and Application of Dynamic Web 
Service Composition Based on QoS.2013-06-08. 

[2] C.Ming,S.Baoning.Research and Application of Web Service 
Composition.2008-06-08 

[3] X.Jei.Web service selection algorithm review journal.2017-06-07 

[4] Y.Jian,H.Yanbo.Service-Oriented Computing--Principles .2008-03 

[5] L.Wei,Y.Bing,Z.Defeng.QoS-based dynamic service portfolio 
journal.2017-07-25 

[6] J.Zheyuan,H.Jiangbo.Dynamic QoS-Aware Web Service Selection 
and Combination Optimization Model.2015-06 

[7] http://www.ijanmc.org/current.htm.Research and Implementation for 
a Class of Large-Scale Full-Range Power System Real-Time 
Simulator.www.ijanmc.org. 

[8] Gu Wei, Wang JiHua, Zhang Yan, Gui JunGuo, and Xu MeiMei. A 
Study and Simulation on Thermal Cycling System of CFB 
Boilerwww.ijanmc.org. 

[9] http://www.ijanmc.org/current.htm.Fine-Grained Access Control 
Scheme Based on Cloud Storage. 

 

 

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