New Model to Achieve Software Quality Assurance (SQA) in Web Application

IJSRD - International Journal for Scientific Research & Development| Vol. 1, Issue 9, 2013 | ISSN (online): 2321-0613
All rights reserved by www.ijsrd.com 1799
Abstract— The quality of product and services has become
one of the most important factors that influence national and
international business , Software Quality Assurance (SQA)
is an integral part of the software development process; with
the rapid technology and development in software
application, we must enhance the quality of product; and
with the rapid development in interaction between the
customers and web service and the technological challenges
in the quality provided , we proposed new model to achieve
Software Quality in Web Application and the model divide
into three parts, the first part: server side, second part: Client
side and the third part :Server side intersection Client side
and there party factors helps to enhance SQA .
Key words: Software Quality Assurance, Web Service,
Server side, Client side, Quality Factors, customers
I. INTRODUCTION
Every application or business domain faces a specific set of
software quality issues and software quality must be defined
accordingly. It is important for each software development
project to define its specific meaning of software quality
during the planning phase. Such a definition contributes to
the basis for setting objectives and practical measures of
quality progress and determination of readiness for release
to customers [1].
Software Quality Assurance (SQA) is a planned
and systematic approach to ensure that software processes
and product and products confirms to the goals of SQA are
to improve software quality by appropriately monitoring
both software and the development process the ensure full
compliance with the established standards and
procedures[2]. The software quality assurance must be used
to make a balance between quality and productivity [3].
Quality improvements affect operations
performance in various ways, such as increasing revenue,
reducing costs and improving productivity. Quality has been
regarded as one of the major drivers of competitive strategy
in every industry [4].
II. RELATED WORKS
There are more and more research interests in software
quality assurance because it’s very important in software
product. Many researchers have developed different quality
frameworks. For example, Garvin [4] developed a quality
framework considering an eight dimension product quality
and Parasuraman et al. [5]
Capability Maturity Model Integration (CMMI)
was developed by the software Engineering Institute of
Carnegie- Mellon University under the sponsorship of the
US department of defence. Beginning with the Capability
Maturity Model of Software (SW-CMM) and now
continuing with the Capability Maturity Model International
(CMMI) framework < software development organization
have achieved significant gain in their ability to develop and
deliver system with predictable results [6].
ISO/IEC 90003:2004 International Organization
for Standardization (ISO) is the world’s largest developer
for standards. It was set up in 1947 and is located in Geneva,
Switzerland. The International Standard which ISO develops
are very useful because they contribute to making the
development, manufacturing and supply of products and
services more efficient, safer and cleaner, the leading global
organization that prepares and publishes international
standard for all electronic, electronic and related
technologies. It was set up in 1906 and is also located in
Geneva, Switzerland. Both standards organization are
supported by national member bodies. These member bodies
participate in the standards writing process through technical
committees [7, 8 and 9].
III. MODEL TO PROVIDE SQA
Software Testing involves operating a system, or an
application, under controlled conditions, and evaluating the
results. In most cases, software testing will involve the
development of a test bed, which tests the given software,
upon a set of test cases. The test bed will feed the test input
to the software system, get the result that’s generated by the
software system, and compares the generated result with the
expected result. If the generated result is same as the
expected result, then the software is bug free else, it has
bugs that need to be fixed.
Fig. 1: Model SQA in Website
Here we propose a model that helps to maintain
and improve the quality and required, The SQA in website
the operation is very complex, including Provisions to
achieve quality assurance, especially because of their
specificity for the software and that was the rapid
development of sites should we have to strengthen the
New Model to Achieve Software Quality Assurance (SQA) in Web
Application
Suyash Raizada1
Dr. Manju Kaushik2
1
M. Tech (Software Engineering) 2
Associate Professor
1, 2
Computer Science and Engineering
1, 2
JECRC, University Jaipur, India

New Model to Achieve Software Quality Assurance (SQA) in Web Application
(IJSRD/Vol. 1/Issue 9/2013/0028)
quality of their competition and also to maintain the service
provided by this site, We sure this model is a enhancing and
help to saving the Quality Assurance in Website in work
between the provider and customers in the same, the model
less than from the critical stages in life cycle of the website
the services so all parties of the model is very important
client side , server side and server side intersection client
side to achieving the Quality Assurance and to achieve this
there are a total of the requirements necessary to achieve the
desired goal of quality assurance in the locations as in
Figure 1.
A. Server Side Factors
Server side operations are concerned with the sending of the
web page data from the server to the web page visitor’s
browser. In the case of Static Web Pages the data is simply
served immediately upon request for the data from the
visitor’s browser. If the requested page is a Dynamic Web
Page then any pre-processing of the page is carried out and
the output is then served to the visitor.
1) Testability:
Testability requirements for the ease of testing are related to
special features in the programs that help the tester, for
instance by providing predefined intermediate results and
log files. The goal of increasing the testability of software is
not just to detect defects but more importantly, to detect
defects as soon as they are introduced. Thus, reducing the
cost and time to fix the bug and producing higher quality
software each build of the release it is important to be able
to verify every requirement, both explicitly stated and
simply expected. Testability means the ability to verify
requirements.
2) Flexibility:
The ease with which a system or component can be
modified for use in applications or environments other than
those for which it was specifically designed. Flexibility
normally refers to the ability for the solution adapt to
possible or future changes in its requirements. When you
design or build a solution you should try to cater for these
changes which inevitably arrive in the future.
3) Reliability:
Reliability requirements deal with failures to provide
service, they determine the maximum allowed software
system failure rate, and can refer to the entire system or to
one or more of its separate functions. Reliability tests
measure the ability of the system to keep operating for a
long time without developing failures.
4) Maintainability:
The Capability of the software product to be modified.
Modifications may include corrections, improvements or
adaptation of the software to changes in environment, And
in requirements and functional specifications.
5) Re-usability:
Reusability requirements deal with the use of software
modules originally designed for one project in a new
Software project currently being developed.
B. Client side Factors:
Client side operations are performed on the visitor’s
computer by the users Internet browser to display the web
page as the data is received from the server.
1) Portability:
Portability requirements tend to the adaptation of a software
system to other environments consisting of different
hardware, different operating systems, requirements make it
possible to continue using the same basic software in diverse
hardware and operating systems and designed and
programmed to any explorer in display our web site in the
same size because some explorer have different structure
and features
2) Usability:
Usability is easy to use the Software must be usable, without
undue effort, by the type of user for whom it is designed.
This means that it should have an appropriate user interface
and adequate documentation.
3) Privacy:
Privacy requirements specify how data privacy is to be
maintained, As the Web provides many mechanisms to
interlink data across systems, and it is important that it keeps
the possibility for users that want or need it, to keep their
personal information private and fragmented.
4) Standard Design:
Web Design and Applications involve the standards for
building and Rendering Web pages, including HTML, CSS,
SVG, device APIs, and other technologies for Web
applications (“WebApps”). This section also includes
information on how to make pages accessible to people with
disabilities (WCAG), to internationalize them, and make
them work on mobile devices.
5) Correctness:
Correctness requirements are defined in a list of the software
system’s required outputs and the output is very important
for costumer and users because the data must be clear and
newest at the time 24/24.
C. Server side Intersection Client side Factors:
That the same grouping between the server side and client
side factors to enhance the quality assurance web site and
that is very important to help into the find quality assurance.
1) Security:
Security is today a relevant requirement for any distributed
application, and in particular for these enabled by the Web
such as firewall for anti-denial service and antivirus server,
to protect from any attack and encryption server with, the
important data and use certification security such as SSL to
Enhance the data security and anti-break of service.
2) Efficiency:
Efficiency requirements deal with the hardware resources
needed to perform all the functions of the software system in
conformance to all other requirements and the bandwidth in
transfer the data between the server and client and the Speed
up in line internet connection must be high speed.
3) Integrity:
Integrity requirements deal with the software system
security; it is the requirement that data and process be
protected from unauthorized modification.
4) Ethics:
Important factors in quality is the ethics that the website
does not attack a religious community or geographical areas
or working on the immorality and corruption and encourage
hatred between human beings and of the regions cannot be
there the quality of the content provided through this site
versa must be served Services serve the human way or

New Model to Achieve Software Quality Assurance (SQA) in Web Application
(IJSRD/Vol. 1/Issue 9/2013/0028)
optimal content helps to be fraudulent to users and we must
be mindful of our ethics offices with all segments of society
and his message to be Semitic, and that does not use user
information to expose their affairs. And the developers and
user are having the same Responsibility.
IV. RESULTS AND VISION FOR MODEL
We sure the model is enhancing and will help to save the
Quality Assurance in Website in work between the provider
and customers in the same, the model less than from the
critical stage in life cycle the services so all parties of the
model is very important client side, server side and server
side intersection client side to achieving the Quality
Assurance.
V. CONCLUSION
In this paper, we have tried to solve and add some
new model to support the Website Quality Assurance
because day by day, all users are ready to use the website
and all applications converts the windows applications to
Web Application and we must enhance the Quality
Assurance in the party of website from the Server Side and
Client Side and the factors influencing both and we must to
saving into website in all factors and in future work I like to
create mode to check up that all factors in our model, to
make sure that the factors work in true way .
REFERENCES
[1] Lazic L., Kolasinac A., Avdic D., “The Software
Quality Economics Model for Software Project
Optimization”, WSEAS Transaction on Computers,
Issue 1, Vol. 8, January 2009.
[2] NASA Software Quality Assurance Centre Software
Assurance Guidebook_NASA-GB_A201, 1989
[3] Liao H., Enke D., and Wiedbe H., “An Expert
Advisory System for ISO 9001 Quality System,”
Expert System with Application, vol. 27, pp. 313-
322, 2004.
[4] Li H., Meissner J., “Improving Quality in Business
Process Outsourcing through Technology”, 2008.
[5] Garvin A., “Competing on the Eight dimensions of
Quality” Harvard Business Review Nov-Dec 101–
109, 1987.
[6] Carnegie Mellon University Software Engineering
Institute, CMMI overview Pittsburgh, USA, 2005.
[7] IEC, About the IEC,
http://www.ies.ch/about/mission-e.html,2006
[8] ISO, ISO/IEC 9003:2004: Software Engineering
Guideline for the Application for ISO 9001:2000 to
Computer Software, ISO press, 2004.
[9] ISO, Overview of the ISO,
http://www.iso.org/iso/en/aboutiso/introduaction/inde
x.html,2006.

New Model to Achieve Software Quality Assurance (SQA) in Web Application

More Related Content

What's hot (20)

Viewers also liked (14)

Similar to New Model to Achieve Software Quality Assurance (SQA) in Web Application (20)

More from ijsrd.com (20)

Recently uploaded (20)

New Model to Achieve Software Quality Assurance (SQA) in Web Application