In this paper, we formulate an optimal testing procedure for software. The objective function is taken to be the expected value of the cost associated with accepting faulty software plus the expected value of the accumulated cost of testing. The model can be used to design optimal testing plans for unit testing as well as for complete programs. The model assigns different costs for normal bugs and major bugs, and considers the costs of various types of misclassification as well The model is demonstrated by an example, and the cost function is plotted for a range of test cycles to illustrate the minimum cost solution
Software testing aims to assure the quality of software under test. To improve the efficiency of sof...
[[abstract]]In this paper, based on software reliability growth models with generalized logistic tes...
[[abstract]]Reliability is one of the most important quality attributes of commercial software since...
In this paper, we formulate an optimal testing procedure for software. The objective function is tak...
In this paper, we formulate an optimal testing procedure for software. The objective function is tak...
Software errors can be a serious problem, because of possible dam- ages (and related costs) and the ...
[[abstract]]In this paper, we study the impact of software testing effort and efficiency on the mode...
[[abstract]]We investigate an optimal resource allocation problem in modular software systems during...
[[abstract]]We consider two kinds of software testing-resource allocation problems. The first proble...
We investigate an optimal resource allocation problem in modular software systems during testing pha...
Considerable development resources are consumed during the software-testing phase. The software deve...
As the use of computing devices increases every day, users rely on the adequate functioning of softw...
[[abstract]]Software testing takes place almost continuously throughout the software developmental l...
The overall goal of software testing is to disclose defects efficiently (i.e. as little time and cos...
Abstract: Testing software for defects exhaustively remains a computationally intensive problem. The...
Software testing aims to assure the quality of software under test. To improve the efficiency of sof...
[[abstract]]In this paper, based on software reliability growth models with generalized logistic tes...
[[abstract]]Reliability is one of the most important quality attributes of commercial software since...
In this paper, we formulate an optimal testing procedure for software. The objective function is tak...
In this paper, we formulate an optimal testing procedure for software. The objective function is tak...
Software errors can be a serious problem, because of possible dam- ages (and related costs) and the ...
[[abstract]]In this paper, we study the impact of software testing effort and efficiency on the mode...
[[abstract]]We investigate an optimal resource allocation problem in modular software systems during...
[[abstract]]We consider two kinds of software testing-resource allocation problems. The first proble...
We investigate an optimal resource allocation problem in modular software systems during testing pha...
Considerable development resources are consumed during the software-testing phase. The software deve...
As the use of computing devices increases every day, users rely on the adequate functioning of softw...
[[abstract]]Software testing takes place almost continuously throughout the software developmental l...
The overall goal of software testing is to disclose defects efficiently (i.e. as little time and cos...
Abstract: Testing software for defects exhaustively remains a computationally intensive problem. The...
Software testing aims to assure the quality of software under test. To improve the efficiency of sof...
[[abstract]]In this paper, based on software reliability growth models with generalized logistic tes...
[[abstract]]Reliability is one of the most important quality attributes of commercial software since...