Quantifying software reliability using testing effort

S. Khatri, S. A. John, R. Majumdar
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引用次数: 4

Abstract

Multiple Software Reliability Growth Models (SRGM) has been illustrated to inspire designers and software developers to develop quality software. These models implicitly assume that expenditure is constant throughout testing effort. Recently importance was given to the testing phase by the development team and it requires controlled screening closely to raise its overall operational efficiency. Software Reliability Growth Models exhibits a precise relation between the failure patterns with time. Considering this as a basic building block a SRGM which is a Non-Homogeneous Poisson Process in nature is i in this work. The various aspects of our proposed model are testing effort function and fault detection rate (FDR). Mainly in Software Reliability Growth Model it was assumed that fault removal process are perfect which is not true in reality as new faults may get introduced during removal or some faults may not get removed due to its complexity. Thus in this model the concept of imperfect debugging was considered and assists us to justify the software reliability more convincingly through the help of testing effort function.
通过测试工作来量化软件可靠性
本文阐述了多种软件可靠性增长模型(SRGM),以激励设计人员和软件开发人员开发高质量的软件。这些模型隐含地假设在整个测试过程中支出是恒定的。最近,开发团队对测试阶段给予了重视,它需要严格控制筛选,以提高其整体操作效率。软件可靠性增长模型显示了故障模式与时间的精确关系。考虑到这是一个基本的构建块,SRGM本质上是一个非齐次泊松过程。我们提出的模型的各个方面是测试努力函数和故障检测率(FDR)。在软件可靠性增长模型中,主要假设故障排除过程是完美的,但在现实中,由于故障排除过程中可能会引入新的故障,或者由于故障的复杂性,一些故障可能无法排除。因此,在该模型中考虑了不完全调试的概念,并通过测试努力函数帮助我们更有说服力地证明软件的可靠性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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