Abstract
In the paper we discuss a failure and servicing model of software applications that employ the service-oriented paradigm for defining cooperation with clients. The model takes into account a time-probabilistic relationship between different servicing outcomes and failures modes. We put forward a set of measures for estimating dependability of service provisioning from the client’s viewpoint and present analytical models to be used for the assessment of the mean servicing and waiting times depending on client’s timeout settings.
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Cardellini, V., Casalicchio, E., Regina, K., et al. (eds.): Performance and Dependability in Service Computing: Concepts, Techniques and Research Directions. IGI Global (2012)
Lyu, M.: Service Reliability Engineering: Performance Evaluation, Fault Tolerance, and Reliability Prediction. In: International Symposium on High Confidence Software (2011)
Sargeant, A.: Dependability of Dynamic Binding in Service-Oriented Computing. In: Int. Conf. on Dependable Systems and Networks (2011)
Zheng, Z., Lyu, M.A.: QoS-Aware Fault Tolerant Middleware for Dependable Service Composition. In: Int. Conf. On Dependable Systems and Networks, pp. 239–248 (2009)
Zheng, Z., Lyu, M.: A Runtime Dependability Evaluation Framework for Fault Tolerant Web Services. In: Int. Conf. On Dependable Systems and Networks (2009)
Fahad, A., Saurabh, A., Saurabh, B.: Dangers and Joys of Stock Trading on the Web: Fail-ure Characterization of a Three-Tier Web Service. In: 30th International Symposium on Reliable Distributed Systems (2011)
Mendes, N., Duraes, J., Madeira, H.: Evaluating and comparing the impact of software faults on web servers. In: 9th European Dependable Computing Conference (2010)
Smith, D., Simpson, K.: Safety Critical Systems Handbook: A Straightforward Guide to Functional Safety, IEC 61508 and Related Standards, 3rd edn. Butterworth-Heinemann, Oxford (2004)
Avizienis, A., Laprie, J.-C., Randell, B., Landwehr, C.: Basic Concepts and Taxonomy of Dependable and Secure Computing. IEEE Transactions on Dependable and Secure Computing 1(1), 11–33 (2004)
Gorbenko, A., Romanovsky, A., Mamutov, S., et al.: Real Distribution of Response Time Instability in Service-Oriented Architecture. In: 29th IEEE International Symposium on Reliable Distributed Systems, pp. 92–99 (2010)
Olive, D.J.: Applied Robust Statistics. Southern Illinois University Press, Illinois (2008)
Reinecke, P., van Moorsel, A., Wolter, K.: Experimental Analysis of the Correlation of HTTP GET Invocations. In: Horváth, A., Telek, M. (eds.) EPEW 2006. LNCS, vol. 4054, pp. 226–237. Springer, Heidelberg (2006)
Gorbenko, A., Kharchenko, V., Romanovsky, A., Mikhaylichenko, A.: Experimenting with exception propagation mechanisms in service-oriented architecture. In: 4th Int. Workshop on Exception Handling, pp. 1–7 (2008)
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Gorbenko, A., Romanovsky, A., Kharchenko, V., Tarasyuk, O. (2012). Dependability of Service-Oriented Computing: Time-Probabilistic Failure Modelling. In: Avgeriou, P. (eds) Software Engineering for Resilient Systems. SERENE 2012. Lecture Notes in Computer Science, vol 7527. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-33176-3_9
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DOI: https://doi.org/10.1007/978-3-642-33176-3_9
Publisher Name: Springer, Berlin, Heidelberg
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