Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
There is an increasing request for web-based software systems, some of them to be used very intensive. The customers ask not only for fast design and implementation, but also for a high quality product. Considering reliability as an important quality attribute, this paper describes the current state of the art in designing, implementing, and testing web-based applications. An important attention is given to web-based software vulnerabilities and how to deliver secure software. Then, reliability modeling in the case of secure web-based software is discussed.
Rocznik
Tom
Strony
15--22
Opis fizyczny
Bibliogr. 26 poz., tab., wykr.
Twórcy
autor
- Spiru Haret University, Bucharest, Romania
autor
- Spiru Haret University, Bucharest, Romania
autor
- Spiru Haret University, Bucharest, Romania
Bibliografia
- [1] Albeanu, G., Madsen, H. & Averian, A. (2009). On the influence of software vulnerabilities on software reliability: The case of open source component based software (submitted to ESREL’09 Conference).
- [2] Calori, I. C. & Stalhane, T. (2007). FMEA and BBN for robustness analysis in web-based applications, In Aven & Vinnem (eds). Risk, Reliability and Societal Safety, Taylor & Francis Group, London, 2341-2347.
- [3] Chu, W. & Qian, D. (2009). Design Web Services: Towards Service Reuse at the Design Level. Journal Of Computers, 4, 3, 193-200.
- [4] Davidson, J. D. & Coward, D. (1999). Java™ Servlet Specification, v2.2, Sun Microsystems.
- [5] Davila-Nicanor, L. & Mejia-Alvarez, P. (2004). Reliability Improvement of Web-Based Software Applications. Proceedings of the Fourth International Conference on Quality Software, CINVESTAV-IPN, Zacatenco, Mexico, 180-188.
- [6] Eaton, C. & Memon, A. (2004). Evaluating Web Page Reliability across Varied Browsing Environments. Proceedings of the 15th IEEE International Symposium on Software Reliability Engineering (ISSRE'04), France.
- [7] Farr, W. (2003). http://www.slingcode.com/smerfs/compare.php
- [8] Guo, Y. & Sampath, S. (2008). Web Application Fault Classification - An Exploratory Study. Proceedings of ESEM’08, October 9-10, 2008, Kaiserslautern, Germany, 3003-305, http://doi.acm.org/10.1145/1414004.1414060.
- [9] Hsu, C. J. & Huang, C. Y. (2009). Reliability Analysis Using Weighted Combinational Models for Web-based Software. To appear in Proceedings of the 18th International World Wide Web Conference (WWW 2009), April 20-24, 2009, Madrid, Spain, 1131-1132.
- [10] Hu, H. (2007). Reliability Analysis for Component-based Software System in Open Distributed Environments. International Journal of Computer Science and Network Security, 7, 5, 193-202.
- [11] Knight J. C. & Elder, M. C. (2001). Fault Tolerant Distributed Information Systems. Proceedings of the 12th International Symposium on Software Reliability Engineering, IEEE, 132-137.
- [12] Lin, M. S., Chen, D. J. & Horng, M. S. (1999). The Reliability Analysis of Distributed Computing Systems with Imperfect Nodes. The Computer Journal, 42, 2, 129-141.
- [13] Littlewood, B. & Strigini, L. (2000). Software Reliability and Dependability: a Roadmap. Proceedings of the Conference on the Future of Software Engineering, 175-188.
- [14] Lyu, M. R. (2007). Software Reliability Engineering: A Roadmap. Proceedings of FOSE, 153-170.
- [15] Maeda, T., Nomura, Y. & Hara, H. (2003). Security and Reliability for Web Services, FUGITSU Sci. Tech. J., 39, 2, 214-223.
- [16] Pickering, 3. (2005). Web Server Reliability, http://www.ipcortex.co.uk/wp/app-reliability3.pdf, Ipcortex.
- [17] Pham, H. (2003). Recent Studies in Software Reliability Engineering. In Pham Hoang (ed.), Handbook of Reliability Engineering: 285-302, London: Springer.
- [18] Randell, B. & Dobson, J. E. (1986). Reliability and Security Issues in Distributed Computing Systems. IEEE Proceedings of the 5th Symposium on Reliability in Distributed Software and Database Systems, Los Angeles, 113-118.
- [19] Schneidewind N. F. (2003). Life Cycle Core Knowledge Requirements for Software Reliability Measurement, Reliability Review. The R&M Engineering Journal, 23, 2, 18-29.
- [20] da Silva Filho, A. M. (2005). Toward More Available Software-Intensive Systems. The Fifth International Requirements Engineering for High-Assurance Systems Workshop, http://www.sei.cmu.edu/community/rhas-workshop/2005/silvafilho.pdf.
- [21] Shier, R. D. (1991). Network Reliability and Algebraic Structures, Clarendon Press, Oxford.
- [22] Shooman, M. L. (2002). Reliability of Fault-Tolerant Computing Systems and Networks. The Journal of Reliability Analysis Center, 4, 1-7 & 11-12.
- [23] Suri, P. K. & Bharat, B. (2007). Reliability Evaluation of Web Based Software. International Journal of Computer Science and Network Security, 7, 9, 151-156.
- [24] Tsai, W. T., Zhang, D., Chen, Y., Huang, H., Paul, R. & Liao, N. (2004). A Software Reliability Model For Web Services. 8th IASTED International Conference on Software Engineering and Applications, Cambridge, MA, 144-149.
- [25] Zaupa, F., Gimenes, I. M. S., Cowan, D., Alencar, P. & Lucena, C. J. P. (2008). A Service-oriented Process to Develop Web Applications. Journal of Universal Computer Science, 14, 8, 1368-1387.
- [26] Wasserman, A. I. (2005). Principles for the Design of Web Applications. http://www.sehci.org/bridging/interact2005/07_Wasserman.pdf.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5a03eece-4467-4e23-811f-596e5094d957