[1. Al-Kuwaiti, M., Kyriakopoulos, N. & Hussein, S. (2009). A Comparative Analysis of Network Dependability Fault-tolerance, Reliability, Security, and Survivability. IEEE CommunicationsSurveys & Tutorials, 11(2), 106-124.10.1109/SURV.2009.090208]Search in Google Scholar
[2. Arvidsson, J. (2006). Taxonomy of the Computer Security Incident Related Terminology. TeliaCERT, Retrieved May, 15, 2011, from (http://www.terena.nl/tech/projects/cert/itaxonomy/archive/.txt)]Search in Google Scholar
[3. Avizienis, A., Laprie, J.C., Randell, B. (April 2001). Fundamental Concepts of Dependability. Toulouse, France: LAAS-CNRS. (Research Report No. 1145, LAAS-CNRS).]Search in Google Scholar
[4. Avizienis, A., Laprie, J.C., Randell, B., Landwehr, C. (2004). Basic Concepts and Taxonomy of Dependable and Secure Computing. IEEE Trans. Dependable and Secure Computing (TDSC), 1(1), 11-33.10.1109/TDSC.2004.2]Search in Google Scholar
[5. Kołowrocki, K. (2004). Reliability of Large Systems. Amsterdam-Boston-Heidelberg-London-New York-Oxford-Paris-San Diego-San Francisco-Singapore-Sydney-Tokyo: Elsevier.]Search in Google Scholar
[6. Kyriakopoulos, N., Wilikens M. (2001). Dependability and Complexity: Exploring Ideas for StudyingOpen Systems, EN. Brussels, Belgium: EC Joint Research Centre.]Search in Google Scholar
[7. Lapie J. C. (Ed.). (1992). Dependability: Basic Concepts and Terminology. New-York, NY, Wien: Springer-Verlag, 10.1007/978-3-7091-9170-5_1]Search in Google Scholar
[8. Mazurkiewicz, J., Walkowiak, T., Nowak K. (2012). Fuzzy Availability Analysis of Web Systems by Monte-Carlo Simulation. In Lecture Notes in Computer Science. Lecture Notes in ArtificialIntelligence, (pp. 616-624). Berlin, Heidelberg: Springer-Verlag.]Search in Google Scholar
[9. Melhart, B., White, S. (2000). Issues in Defining, Analyzing, Refining, and Specifying System Dependability Requirements. In Proc. of the 7th IEEE International Conference and Workshop on the Engineering of Computer Based Systems (ECBS 2000), Apr. 3-7, 2000 (pp. 334-340). Edinburgh, Scotland, UK: IEEE Computer Society.]Search in Google Scholar
[10. Michalska, K., Walkowiak, T. (2008). Hierarchical Approach to Dependability Analysis of Information Systems by Modeling and Simulation. In Andre Cotton et al. (Eds.), Proceedings of the 2nd International Conference on Emerging Security Information, Systems and Technologies (SECURWARE 2008), Cap Esterel, France, 25-31 August, 2008 (pp. 356 -361). Los Alamitos: IEEE Computer Society Press.]Search in Google Scholar
[11. Michalska, K., Walkowiak, T. (2008). Modelling and Simulation for Dependability Analysis of Information Systems. In Jerzy Świątek et al. (Eds.), Information Systems Architecture andTechnology. Model Based Decisions (pp. 115-125). Wroclaw: University of Technology.]Search in Google Scholar
[12. Nowak, K. (2011). Modelling of Computer Systems - an Approach for Functional and Dependability Analysis. K. Kołowrocki, J. Soszyńska-Budny (Eds.), Journal of Polish Safety and ReliabilityAssociation, Summer Safety and Reliability Seminars (SSARS 2011), 1, 153-161.]Search in Google Scholar
[13. Walkowiak, T., Mazurkiewicz, J. (2008). Availability of Discrete Transportation System Simulated by SSF Tool. In Proceedings of International Conference on Dependability of Computer Systems, Szklarska Poreba, Poland, June, 2008 (pp. 430-437). Los Alamitos: IEEE Computer Society Press.]Search in Google Scholar
[14. Walkowiak, T., Mazurkiewicz, J. (2008). Functional Availability Analysis of Discrete Transportation System Realized by SSF Simulator. In Proceedings of the 8th International Conference ‘Computational Science - ICCS 2008’, part I, Krakow, Poland, June 2008, (pp. 671-678). Berlin, Heidelberg: Springer-Verlag.]Search in Google Scholar
[15. Walkowiak, T., Mazurkiewicz, J. (2010). Algorithmic Approach to Vehicle Dispatching in Discrete Transportation Systems. In Jarosław Sugier et al. (Eds.), Technical Approach to Dependability (pp. 173-188). Wroclaw: Wroclaw University of Technology.]Search in Google Scholar
[16. Walkowiak, T., Mazurkiewicz, J. (2010). Functional Availability Analysis of Discrete Transportation System Simulated by SSF Tool. International Journal of Critical Computer-Based Systems, 1(1-3), 255-266.10.1504/IJCCBS.2010.031718]Search in Google Scholar
[17. Walkowiak, T., Mazurkiewicz, J. (2010). Soft Computing Approach to Discrete Transportation System Management. In Lecture Notes in Computer Science. Lecture Notes in Artificial Intelligence. vol. 6114 (pp. 675-682). Berlin, Heidelberg: Springer-Verlag, 18. Volfson, I.E. (2000). Reliability Criteria and the Synthesis of Communication Networks with its Accounting. J. Computer and Systems Sciences International, 39 (6), 951-967.]Search in Google Scholar
[19. Xiaofeng, T., Changjun, J., Yaojun, H. (2005). Applying SOA to Intelligent Transportation System. In Proceedings of the IEEE International Conference on Services Computing, Vol. 2, July, 11-15, 2005 (pp. 101-104). Orlando, Florida: IEEE Computer Society.]Search in Google Scholar
[20. Zamojski, W., Caban, D. (2005). Assessment of the Impact of Software Failures on the Reliability of a Man-Computer System. In Proc. of the Conference on European Safety and Reliability (ESREL), 2005, (pp. 2087-2090). Gdynia-Sopot-Gdansk: A. A. Balkema.]Search in Google Scholar
[21. Zhou, M., Kurapati, V. (1999). Modelling, Simulation, & Control of Flexible Manufacturing Systems:A Petri Net Approach. London, UK: World Scientific Publishing.10.1142/3376]Search in Google Scholar
[22. Zhu, J., Zhang, L.Z. (2006). A Sandwich Model for Business Integration in BOA (Business Oriented Architecture). In Proceedings of the IEEE Asia-Pacific Conference on Services Computing (APCSC), 2006 (pp. 305-310). Washington, DC: IEEE Computer Society. ]Search in Google Scholar