Software Engineering

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Software Reliability Growth Models with Exponentiated Weibull Testing-Effort Function and Analyzing its Release Policy


Affiliations
1 Sri Mittapalli Institute of Technology for Women, NH-5, Tummalapalem, Guntur, A.P, India
2 P.V.P.S.I.T, Vijayawada, India
3 Department of Computer Science & Systems Engg, Andhra University College of Engg, Visakhapatnam, India
4 Sri Mittapalli College of Engineering, NH-5, Tummalapalem, Guntur, A.P, India
     

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Software reliability is one of the important factors of software quality. Before software delivered in to market it is thoroughly checked and errors are removed. Every software industry wants to develop software that should be error free. Software reliability growth models are helping the software industries to develop software which is error free and reliable. In this paper an analysis is done based on incorporating the Exponentiated Weibull testing-effort in to NHPP Software reliability growth model and also observed its release policy. Experiments are performed on the real datasets. Parameters are calculated and observed that our model is best fitted for the datasets.

Keywords

Software Reliability, Software Testing, Testing Effort, Non-Homogeneous Poisson Process (NHPP), Software Cost.
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  • Software Reliability Growth Models with Exponentiated Weibull Testing-Effort Function and Analyzing its Release Policy

Abstract Views: 259  |  PDF Views: 1

Authors

Shaik. Mohammad Rafi
Sri Mittapalli Institute of Technology for Women, NH-5, Tummalapalem, Guntur, A.P, India
K. Nageswaran Rao
P.V.P.S.I.T, Vijayawada, India
S. Pallam Sety
Department of Computer Science & Systems Engg, Andhra University College of Engg, Visakhapatnam, India
Shaheda Akthar
Sri Mittapalli College of Engineering, NH-5, Tummalapalem, Guntur, A.P, India

Abstract


Software reliability is one of the important factors of software quality. Before software delivered in to market it is thoroughly checked and errors are removed. Every software industry wants to develop software that should be error free. Software reliability growth models are helping the software industries to develop software which is error free and reliable. In this paper an analysis is done based on incorporating the Exponentiated Weibull testing-effort in to NHPP Software reliability growth model and also observed its release policy. Experiments are performed on the real datasets. Parameters are calculated and observed that our model is best fitted for the datasets.

Keywords


Software Reliability, Software Testing, Testing Effort, Non-Homogeneous Poisson Process (NHPP), Software Cost.