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From reliability to system dependability : theory and models

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper presents a novel approach to system dependability problem. The analysed systems and networks – characterised by different sets of features – are considered as a union of all their resources essential for the predicted tasks realisation. The system dependability is discussed with respect to the occurrence of incidents and treats that may cause to damage the system resources and – in consequence – to the collapse of the executed tasks. The maintenance policy system is based on two main concepts: detection of unfriendly events and system responses to them. The proposed analysis is realised from the user’s point of view, focusing on functional features described by business services available in the system.
Rocznik
Strony
223--232
Opis fizyczny
Bibliogr. 34 poz., rys.
Twórcy
autor
  • Wrocław University of Technology, Poland
  • Wrocław University of Technology, Poland
Bibliografia
  • [1] Arvidsson, J. (2006). Taxonomy of the Computer Security Incident Related Terminology. Telia CERT (http://www.terena.nl/tech/projects/cert/itaxonomy/archive/.txt)
  • [2] Avižienis, A., Laprie, J. & Randell, B. (2000). Fundamental Concepts of Dependability. 3rd Information Survivability Workshop (ISW2000), Boston, Massachusetts, USA.
  • [3] Avižienis, A., Laprie, J., Randell, B. & Landwehr, C. (2004). Basic Concepts and Taxonomy of Dependable and Secure Computing. IEEE Transactions on Dependable and Secure Computin, Vol.1, 11-33.
  • [4] Common Criteria. ISO/IEC15408
  • [5] GAO-04-321 (2004). TECHNOLOGY ASSESSMENT. Cybersecurity for Critical Infrastructure Protection. US GAO, Washington.
  • [6] Gold, N., Knight, C. , Mohan, A. & Munro, M. (2004). Understanding service-oriented software. IEEE Software, Vol. 21, pp. 71-77.
  • [7] IFIP WG10.4 on Dependable Computing and Fault Tolerance, http://www.dependability.org/.
  • [8] Josuttis, N. (2007). SOA in Practice: The Art of Distributed System Design. O’Reilly.
  • [9] Kołowrocki, K. (2004). Reliability of Large Systems. Elsevier, Amsterdam - Boston - Heidelberg - London - New York - Oxford - Paris - San Diego - San Francisco - Singapore - Sydney - Tokyo.
  • [10] Kopociński, B. (1977). Zarys teorii odnowy i niezawodności. PWN Warszawa.
  • [11] Mortier, R., Isaacs, R. & Barham, P. (2006). Anemone: Using End-Systems as a Rich Management Platform. Microsoft Technical Report, MSR-TR-2005-62.
  • [12] Michalska, K. & Walkowiak, T. (2008). Hierarchical Approach to Dependability Analysis of Information Systems by Modelling and Simulation. Proc. of the 2008 Second international Conference on Emerging Security information, Systems and Technologies. SECURWARE. IEEE Computer Society, Washington, DC, 356-361.
  • [13] OASIS, Organization for the Advancement of Structured Information Standards Home Page. http://www.oasis-open.org/home/index.php
  • [14] Oppenheimer, D. et al. (2002). ROC-1: Hardware Support for Recovery-Oriented Computing. IEEE Trans. On Computers, Vol. 5 no 2.
  • [15] Patterson, D. et al. (2002). Recovery Oriented Computing (ROC): Motivation, Definition, Techniques, and Case Studies. Berkeley: Comp. Sc. Technical Report.
  • [16] Ross Sheldon, M. (1985). Introduction to Probability Models (Third Edition). Academic Press, Inc. Orlando Florida.
  • [17] Report to the President (2005). Cyber Security: A Crisis of Prioritization. Executive Office of the President of the US.
  • [18] Supplement to the President’s Budget for Fiscal Year 2007 (2006). The Networking and Information Technology. Research and Development Program. Executive Office of the President of the US.
  • [19] Walkowiak, T. & Mazurkiewicz, J. (2009). Analysis of Critical Situations in Discrete Transport Systems. Proc. of International Conference on Dependability of Computer Systems, Brunow, Poland, June 30-July 2, 2009. Los Alamitos: IEEE Computer Society Press, 364-371.
  • [20] Walkowiak, T. & Mazurkiewicz, J. (2008). Availability of Discrete Transport System Simulated by SSF Tool. Proc. of International Conference on Dependability of Computer Systems, Szklarska Poreba, Poland, June, 2008. Los Alamitos: IEEE Computer Society Press, 430-437.
  • [21] Walkowiak, T. & Mazurkiewicz, J. (2008). Functional Availability Analysis of Discrete Transport System Realized by SSF Simulator. Computational Science – ICCS 2008, 8th International Conference, Krakow, Poland, June 2008. Springer-Verlag, LNCS 5101, 2008. Part I, 671-678.
  • [22] Walkowiak, T. & Mazurkiewicz, J. (2010). Functional Availability Analysis of Discrete Transport System Simulated by SSF Tool. International Journal of Critical ComputerBased Systems, Vol. 1, No 1-3, 255-266.
  • [23] Walkowiak, T. & Mazurkiewicz, J. (2010). Soft Computing Approach to Discrete Transport System Management. Lecture Notes in Computer Science. Lecture Notes in Artificial Intelligence. Springer-Verlag, 2010. Vol. 6114, 675-682.
  • [24] Volfson, I.E. (2000). Reliability Criteria and the Synthesis of Communication Networks with its Accounting. Journal Computer and Systems Sciences International, Vol. 39 (6), str. 951-967, Nov. - Dec.
  • [25] Xiaofeng, T., Changjun, J. & Yaojun, H. (2005). Applying SOA to Intelligent Transportation System. IEEE International Conference on Services Computing, 101–104 vol. 2.
  • [26] Zamojski, W. (2005): Model funkcjonalnoniezawodnościowy systemu komputer-człowiek. (Functional-Reliability Model of a ComputerMan System). Praca zbiorowa pod redakcją Wojciecha Zamojskiego InŜynieria komputerowa. WKiŁ, Warszawa.
  • [27] Zamojski, W. (2007). Systemy transportu dyskretnego. Niezawodność. Modele. Praca zbiorowa pod red. W. Zamojski. WKŁ Warszawa.
  • [28] Zamojski, W. & Caban, D. (2003). Trends in the Theory and Engineering of Reliability Applied to the NBIC Technology. Proc. of The 3-rd Safety and Reliability International Conference to Safer Life and Environment KONBIN 2003, Gdynia.
  • [29] Zamojski, W., & Walkowiak, T. (2010). Services net modelling for dependability analysis. In-Tech., 1-17.
  • [30] Zamojski, W. & Caban, D. (2005). Assessment of the Impact of Software Failures on the Reliability of a Man-Computer System. Proc. Of European Safety and Rel. Conference ESREL 2005, A.A. Balkema Publ.
  • [31] Zamojski, W. & Caban, D. (2006). Introduction to the Dependability Modelling of Computer Systems. Dependability of Computer Systems DepCoS - RELCOMEX ’06,100-109.
  • [32] Zamojski, W. & Caban, D. (2007). Maintenance Policy of a Network with Traffic Reconfiguration. Dependability of Computer Systems DepCoS - RELCOMEX ’07, 213-220.
  • [33] Zhou, M. & Kurapati, V. (1999). Modelling, Simulation, & Control of Flexible Manufacturing Systems: A Petri Net Approach. World Scientific Publishing.
  • [34] Zhu, J. & Zhang, L.Z. (2006). A Sandwich Model for Business Integration in BOA (Business Oriented Architecture). Proc. of the 2006 IEEE Asia-Pacific Conference on Services Computing. APSCC. IEEE Computer Society, Washington, DC, 305-310.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a2703c0b-c066-4ed9-b2fc-2b3c4bc4f5bb
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