Author :
Singh, V.B. ; Kapur, P.K. ; Tandon, Abhishek
Author_Institution :
Delhi Coll. of Arts & Commerce, Univ. of Delhi, Delhi, India
Abstract :
This, paper presents (i) several software reliability, growth models (SRGM) which tries to predict, quantitatively the failure, phenomena, in, an, Open, Source, Software, project over a period of time. Here, it is assumed that the number of failures during testing is dependent upon the number of instructions execution, (ii) in order to cater the, irregular state, of, bug-report, phenomena, on, the, bug tracking system and irregular fluctuation in terms of noise, the reliability models have been proposed by applying an Itô type Stochastic Differential Equations (SDE). We have demonstrated that proposed models can support management in building reliable software systems by predicting remaining bugs. We have also compared our proposed models with several existing models on the basis of different comparison criteria.
Keywords :
differential equations; public domain software; software reliability; bug report phenomena; open source software; software reliability growth model; software system; stochastic differential equation; support management; Data models; Mathematical model; Software; Software reliability; Stochastic processes; Testing;
