Your search keyword '"COMPUTER software testing"' showing total 2 results

1. A Unified Approach for Developing Software Reliability Growth Models in the Presence of Imperfect Debugging and Error Generation.

Author

Kapur, P. K., Pham, H., Anand, Sameer, and Yadav, Kalpana

Subjects

*RELIABILITY in engineering, *SOFTWARE engineering, *DEBUGGING, *MATHEMATICAL models, *FAULT location (Engineering), *POISSON processes, *COMPUTER software testing

Abstract

In this paper, we propose two general frameworks for deriving several software reliability growth models based on a non-homogeneous Poisson process (NHPP) in the presence of imperfect debugging and error generation. The proposed models are initially formulated for the case when there is no differentiation between failure observation and fault removal testing processes, and then extended for the case when there is a clear differentiation between failure observation and fault removal testing processes. During the last three decades, many software reliability growth models (SRGM) have been developed to describe software failures as a random process, and can be used to evaluate development status during testing. With SRGM, software engineers can easily measure (or forecast) the software reliability (or quality), and plot software reliability growth charts. It is not easy to select the best model from a plethora of models available. There are few SRGM in the literature of software engineering that differentiates between failure observation and fault removal processes. In real software development environments, the number of failures observed need not be the same as the number of faults removed. Due to the complexity of software systems, and an incomplete understanding of software, the testing team may not be able to remove the fault perfectly on observation of a failure, and the original fault may remain, resulting in a phenomenon known as imperfect debugging, or get replaced by another fault causing error generation. In the case of imperfect debugging, the fault content of the software remains the same; while in the case of error generation, the fault content increases as the testing progresses. Removal of observed faults may result in the introduction of new faults. [ABSTRACT FROM AUTHOR]

Published

2011

2. Developing a Single Model and Test Prioritization Strategies for Event-Driven Software.

Author

Bryce, Renee C., Sampath, Sreedevi, and Memon, Atif M.

Subjects

*COMPUTER software testing, *WORLD Wide Web, *WEBSITES, *JAVA programming language, *GRAPHICAL user interfaces, *FAULT location (Engineering), *USER interfaces

Abstract

Event-Driven Software (EDS) can change state based on incoming events; common examples are GUI and Web applications. These EDSs pose a challenge to testing because there are a large number of possible event sequences that users can invoke through a user interface. While valuable contributions have been made for testing these two subclasses of EDS, such efforts have been disjoint. This work provides the first single model that is generic enough to study GUI and Web applications together. In this paper, we use the model to define generic prioritization criteria that are applicable to both GUI and Web applications. Our ultimate goal is to evolve the model and use it to develop a unified theory of how all EDS should be tested. An empirical study reveals that the GUI and Web-based applications, when recast using the new model, show similar behavior. For example, a criterion that gives priority to all pairs of event interactions did well for GUI and Web applications; another criterion that gives priority to the smallest number of parameter value settings did poorly for both. These results reinforce our belief that these two subclasses of applications should be modeled and studied together. [ABSTRACT FROM AUTHOR]

Published

2011