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http://dx.doi.org/10.5351/CKSS.2010.17.6.891

Evaluation of Software Task Processing Based on Markovian Imperfect Debugging Model and Its Release Policy  

Kim, U-Jung (College of General Education, Hallym University)
Lee, Chong-Hyung (Department of Hospital Management, Konyang University)
Publication Information
Communications for Statistical Applications and Methods / v.17, no.6, 2010 , pp. 891-898 More about this Journal
Abstract
In real software development fields, software is unified by several modules that are developed before the software testing period. For the evaluation of software task processing performance, this paper considers the software imperfect debugging model that is proposed by Lee and Park (2003) and presents the measures of a unified software, such as the completion probability of a task which is completed in a time interval and the expected number of the completed tasks. In addition, we suggest a software release policy that satisfies the required level of the expected perfect debugging, completion probability, and availability.
Keywords
Software; module; imperfect debugging; completion probability; release policy;
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1 Goel, A. L. and Okumoto, K. (1979). Time-dependent error-detection rate model for software reliability and other performance measures, IEEE Transactions on Reliability, 28, 206–211.   DOI
2 Goel, A. L. and Soenjoto, J. (1981). Models for hardware-software operational- performance evaluation, IEEE Transactions on Reliability, 30, 232–239.   DOI
3 Lee, C. H., Nam, K. H. and Park, D. H. (2001). Optimal software release policy based on markovian perfect debugging model, Communications in Statistics: Theory and Methods, 30, 2329–2342.   DOI
4 Lee, C. H. and Park, D. H. (2003). Markovian imperfect software debugging model and Its performance, Stochastic Analysis and Applications, 21, 849–864.   DOI
5 Moranda, P. B. (1979). Event-altered rate models for general reliability analysis, IEEE Transactions on Reliability, R-28, 376–81.   DOI
6 Shooman, M. L. and Trivedi, A. K. (1976). A many-state markov model for computer software performance parameters, IEEE Transactions on Reliability, R-25, 66–68.   DOI
7 Tokuno, K. and Yamada, S. (1998). Operational software availability measurement with two kind of restoration actions, Journal of Quality in Maintenance Engineering, 4, 273–283.   DOI
8 Tokuno, K. and Yamada, S. (2004). Performance evaluation for multi-task processing system with software availability model, Proceedings of the 2004 Asian International Workshop(AIWARM 2004), 539–546.   DOI
9 Tokuno, K. and Yamada, S. (2006). Stochastic Performance evaluation for multi-tasking processing system with software availability model, Journal of Quality in Maintenance Engineering, 12, 412–424.   DOI