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References
Adams E. Optimizing preventive service of the software products. IBM J Res Dev 1984;28:2–14.
Huang Y, Kintala C, Kolettis N, Fulton ND. Software rejuvenation: analysis, module and applications. In: Proceedings of 25th International Symposium on Fault Tolerant Computer Systems. Los Alamitos: IEEE CS Press; 1995. p.381–90.
Lin F. Re-engineering option analysis for managing software rejuvenation. Inform Software Technol 1993;35:462–467.
Parnas DL. Software aging. In: Proceedings of 16th International Conference on Software Engineering. New York: ACM Press; 1994. p.279–87.
Huang Y, Kintala C. Software fault tolerance in the application layer. In: Lyu MR, editor. Software fault tolerance. Chichester: John Wiley & Sons; 1995. p.231–48
Huang Y, Jalote P, Kintala C. Two techniques for transient software error recovery. In: Banatre M, Lee PA, editors. Hardware and software architectures for fault tolerance: experience and perspectives. Springer Lecture Note in Computer Science, vol. 774. Berlin: Springer-Verlag; 1995. p.159–70.
Jalote P, Huang Y, Kintala C. A framework for understanding and handling transient software failures. In: Proceedings of 2nd ISSAT International Conference on Reliability and Quality in Design, 1995; p.231–7.
Avritzer A, Weyuker EJ. Monitoring smoothly degrading systems for increased dependability. Empirical Software Eng J 1997;2:59–77.
Levendel Y. The cost effectiveness of telecommunication service. In: Lyu MR, editor. Software fault tolerance. Chichester: John Wiley & Sons; 1995. p.279–314.
Marshall E. Fatal error: how Patriot overlooked a Scud. Science 1992;255:1347.
Gray J, Siewiorek DP. High-availability computer systems. IEEE Comput 1991;9:39–48.
Trivedi KS, Vaidyanathan K, Goěva-Postojanova K. Modeling and analysis of software aging and rejuvenation. In: Proceedings of 33rd Annual Simulation Symposium. Los Alamitos: IEEE CS Press; 2000. p.270–9.
Tai AT, Chau SN, Alkalaj L, Hecht H. On-board preventive maintenance: analysis of effectiveness and optimal duty period. In: Proceedings of 3rd International Workshop on Object Oriented Real-Time Dependable Systems. Los Alamitos: IEEE CS Press; 1997. p.40–7.
Tai AT, Alkalaj L, Chau SN. On-board preventive maintenance for long-life deep-space missions: a model-based evaluation. In: Proceedings of 3rd IEEE International Computer Performance & Dependability Symposium. Los Alamitos: IEEE CS Press; 1998. p.196–205.
Tai AT, Alkalaj L, Chau SN. On-board preventive maintenance: a design-oriented analytic study for long-life applications. Perform Eval 1999;35:215–32.
Vaidyanathan K, Harper RE, Hunter SW, Trivedi KS. Analysis and implementation of software rejuvenation in cluster systems. In: Proceedings of Joint International Conference on Measurement and Modeling of Computer Systems, ACMSIGMETRICS 2001/Peformance 2001. New York: ACM; 2001. p.62–71.
IBM Netfinity director software rejuvenation-white paper. URL: http://www.pc.ibm.com/us/techlink/wtpapers/.
Dohi T, Goševa-Popstojanova K, Trivedi KS. Analysis of software cost models with rejuvenation. In: Proceedings of 5th IEEE International Symposium High Assurance Systems Engineering. Los Alamitos: IEEE CS Press; 2000. p.25–34.
Dohi T, Goševa-Popstojanova K, Trivedi KS. Statistical non-parametric algorithms to estimate the optimal software rejuvenation schedule. In: Proceedings of 2000 Pacific Rim International Symposium Dependable Computing. Los Alamitos: IEEE CS Press; 2000. p.77–84.
Dohi T, Goševa-Popstojanova K, Trivedi KS. Estimating software rejuvenation schedule in high assurance systems. Comput J 2001;44:473–85.
Garg G, Puliafito A, Trivedi KS. Analysis of software rejuvenation using Markov regenerative stochastic Petri net. In: Proceedings of 6th International Symposium on Software Reliability Engineering. Los Alamitos: IEEE CS Press; 1995. p.180–7.
Bobbio A, Sereno M. Fine grained software rejuvenation models. In: Proceedings of 3rd IEEE International Computer Performance & Dependability Symposium. Los Alamitos: IEEE CS Press; 1998. p.4–12.
Garg S, Huang Y, Kintala C, Trivedi KS. Minimizing completion time of a program by checkpointing and rejuvenation. In: Proceedings of 1996 ACM SIGMETRICS Conference. New York: ACM; 1996. p.252–61.
Bobbio A, Garg S, Gribaudo M, Horvaáth A, Sereno M, Telek M. Modeling software systems with rejuvenation, restoration and checkpointing through fluid stochastic Petri nets. In: Proceedings of 8th International Workshop on Petri Nets and Performance Models. Los Alamitos: IEEE CS Press; 1999. p.82–91.
Garg S, Huang Y, Kintala C, Trivedi KS. Time and load based software rejuvenation: policy, evaluation and optimality. In: Proceedings of 1st Fault-Tolerant Symposium, 1995. p.22–5.
Pfening A, Garg S, Puliafito A, Telek M, Trivedi KS. Optimal rejuvenation for tolerating soft failures. Perform Eval 1996;27-28:491–506.
Garg S, Puliafito A, Telek M, Trivedi KS. Analysis of preventive maintenance in transactions based software systems. IEEE Trans Comput 1998;47:96–107.
Okamura H, Fujimoto A, Dohi T, Osaki S, Trivedi KS. The optimal preventive maintenance policy for a software system with multi server station. In: Proceedings of 6th ISSAT International Conference on Reliability and Quality in Design, 2000; p.275–9.
Okamura H, Miyahara S, Dohi T, Osaki S. Performance evaluation of workload-based software rejuvenation scheme. IEICE Trans Inform Syst D 2001;E84-D: 1368–75.
Ross SM. Applied probability models and optimization applications. San Francisco (CA): Holden-Day; 1970.
Barlow RE, Campo R. Total time on test processes and applications to failure data. In: Barlow RE, Fussell J, Singpurwalla ND, editors. Reliability and fault tree analysis. Philadelphia: SIAM; 1975. p.451–81.
Pfister G. In search of clusters: the coming battle in lowly parallel computing. Englewood Cliffs (NJ): Prentice-Hall; 1998.
Garg S, van Moorsel A, Vaidyanathan K, Trivedi KS. A methodology for detection and estimation of software aging. In: Proceedings of 9th International Symposium on Software Reliability Engineering. Los Alamitos: IEEE CS Press; 1998. p.282–92
Vaidyanathan K, Trivedi KS. A measurement-based model for estimation of resource exhaustion in operational software systems. In: Proceedings of 10th IEEE International Symposium on Software Reliability Engineering. Los Alamitos: IEEE CS Press; 1999. p.84–93.
Cleveland WS. Robust locally weighted regression and smoothing scatterplots. J Am Stat Assoc 1979;74:829–36.
Gilbert RO. Statistical methods for environmental pollution monitoring. New York (NY): Van Nostrand Reinhold; 1987.
Hartigan JA. Clustering algorithms. New York (NY): John Wiley & Sons; 1975.
Sahner RA, Trivedi KS, Puliafito A. Performance and reliability analysis of computer systems-an example-based approach using the SHARPE software package. Norwell (MA): Kluwer Academic Publishers; 1996.
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Dohi, T., Goševa-Popstojanova, K., Vaidyanathan, K., Trivedi, K.S., Osaki, S. (2003). Software Rejuvenation: Modeling and Applications. In: Pham, H. (eds) Handbook of Reliability Engineering. Springer, London. https://doi.org/10.1007/1-85233-841-5_14
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DOI: https://doi.org/10.1007/1-85233-841-5_14
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