DocumentCode
467088
Title
Measuring and Assessing Software Reliability Growth through Simulation-Based Approaches
Author
Lin, Chu-Ti ; Huang, Chin-Yu ; Sue, Chuan-Ching
Author_Institution
Nat. Tsing Hua Univ., Hsinchu
Volume
1
fYear
2007
fDate
24-27 July 2007
Firstpage
439
Lastpage
448
Abstract
In the past decade, several rate-based simulation approaches were proposed to predict software failure process. But most of them did not take the number of available debuggers into consideration and this may not be reasonable. In practice, the number of debuggers is always limited and controlled. If all debuggers or developers are busy, the new detected faults should be willing to wait (for a long time to be corrected and removed). Besides, practical experiences also show that the fault removal time is non-negligible and the number of removed faults generally lags behind the total number of detected faults. Based on these facts, in this paper, we will apply queueing theory to describe and explain the possible debugging behavior during software development. Two simulation procedures are developed based on G/G/ infin and G/G/m queueing models. The proposed methods will be illustrated with real software failure data. Experimental results will be analyzed and discussed in detail. The results we obtained will greatly help to understand the influence of size of debugger teams on the software failure correction activities and other related reliability assessments.
Keywords
program debugging; software metrics; software performance evaluation; software reliability; debugging behavior; queueing models; rate-based simulation; simulation-based approach; software development; software failure process; software reliability growth assessment; software reliability growth measurement; Analytical models; Application software; Computer science; Debugging; Fault detection; Neural networks; Project management; Queueing analysis; Software measurement; Software reliability;
fLanguage
English
Publisher
ieee
Conference_Titel
Computer Software and Applications Conference, 2007. COMPSAC 2007. 31st Annual International
Conference_Location
Beijing
ISSN
0730-3157
Print_ISBN
0-7695-2870-8
Type
conf
DOI
10.1109/COMPSAC.2007.141
Filename
4291036
Link To Document