Software reliability modeling and analysis

Author

Scholz, F.-W.

Author_Institution

Boeing Comput. Services, Tukwila, WA, USA

Issue

1

fYear

1986

Firstpage

25

Lastpage

31

Abstract

A discrete and, as approximation to it, a continuous model for the software reliability growth process are examined. The discrete model is based on independent multinomial trials and concerns itself with the joint distribution of the first occurrence time of its underlying events (bugs). The continuous model is based on the order statistics of N independent nonidentically distributed exponential random variables. It is shown that the spacings between bugs are not necessarily independent, or exponentially (geometrically) distributed. However, there is a statistical rationale for viewing them so conditionally. Some identifiability problems are pointed out and resolved. In particular, it appears that the number of bugs in a program is not identifiable.

Keywords

reliability theory; software reliability; bugs; discrete model; multinomial trials; nonidentically distributed exponential random variables; software reliability growth; Computer bugs; Debugging; Random variables; Software; Software reliability; Zinc; Conditional inference; confidence bounds; exponential order statistics (non-i.i.d.); identifiability; multinomial trials; order restricted maximum likelihood estimates; spacings;

fLanguage

English

Journal_Title

Software Engineering, IEEE Transactions on

Publisher

ieee

ISSN

0098-5589

Type

jour

DOI

10.1109/TSE.1986.6312916

Filename

6312916