Optimal Release Time and Sensitivity Analysis Using a New NHPP Software Reliability Model with Probability of Fault Removal Subject to Operating Environments

With the latest technological developments, the software industry is at the center of the fourth industrial revolution. In today’s complex and rapidly changing environment, where software applications must be developed quickly and easily, software must be focused on rapidly changing information tech...

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Published in	Applied sciences Vol. 8; no. 5; p. 714
Main Authors	Song, Kwang Yoon, Chang, In Hong, Pham, Hoang
Format	Journal Article
Language	English
Published	Basel MDPI AG 01.05.2018
Subjects	Debugging Failure Growth models NHPP optimal release Sensitivity analysis Software industry Software reliability software reliability model
Online Access	Get full text
ISSN	2076-3417 2076-3417
DOI	10.3390/app8050714

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Abstract	With the latest technological developments, the software industry is at the center of the fourth industrial revolution. In today’s complex and rapidly changing environment, where software applications must be developed quickly and easily, software must be focused on rapidly changing information technology. The basic goal of software engineering is to produce high-quality software at low cost. However, because of the complexity of software systems, software development can be time consuming and expensive. Software reliability models (SRMs) are used to estimate and predict the reliability, number of remaining faults, failure intensity, total and development cost, etc., of software. Additionally, it is very important to decide when, how, and at what cost to release the software to users. In this study, we propose a new nonhomogeneous Poisson process (NHPP) SRM with a fault detection rate function affected by the probability of fault removal on failure subject to operating environments and discuss the optimal release time and software reliability with the new NHPP SRM. The example results show a good fit to the proposed model, and we propose an optimal release time for a given change in the proposed model.
AbstractList	With the latest technological developments, the software industry is at the center of the fourth industrial revolution. In today’s complex and rapidly changing environment, where software applications must be developed quickly and easily, software must be focused on rapidly changing information technology. The basic goal of software engineering is to produce high-quality software at low cost. However, because of the complexity of software systems, software development can be time consuming and expensive. Software reliability models (SRMs) are used to estimate and predict the reliability, number of remaining faults, failure intensity, total and development cost, etc., of software. Additionally, it is very important to decide when, how, and at what cost to release the software to users. In this study, we propose a new nonhomogeneous Poisson process (NHPP) SRM with a fault detection rate function affected by the probability of fault removal on failure subject to operating environments and discuss the optimal release time and software reliability with the new NHPP SRM. The example results show a good fit to the proposed model, and we propose an optimal release time for a given change in the proposed model. Many software reliability models (SRMs) have been proposed to measure, predict, and ensure reliability. [...]the growth of reliability, and the trade-off between cost expenditure and optimal release both depend on the accuracy of the established SRM. [...]because of the complexity of software systems, software development can be time-consuming and expensive. [...]the main focus of software companies is on improving the reliability and stability of a software system. [...]Table 6 shows that for the proposed model, the values of MSE, RMSE, AIC, SAE, and PP are 93.2910, 9.6587, 182.2178, 99.6157, and 0.9340, respectively, which are lower than those of the other models. [...]we find the impact of the cost coefficients, C1, C2, C3, and C4 on the optimal release time with the expected minimum total cost and the software reliability by changing their values.
Author	Song, Kwang Yoon Pham, Hoang Chang, In Hong
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SubjectTerms	Debugging Failure Growth models NHPP optimal release Sensitivity analysis Software industry Software reliability software reliability model
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Title	Optimal Release Time and Sensitivity Analysis Using a New NHPP Software Reliability Model with Probability of Fault Removal Subject to Operating Environments
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