An efficient scheduling framework for improving QoS in web service composition

  • Authors

    • T N.Aruna
    • Dr Vijivinod
    https://doi.org/10.14419/ijet.v7i1.9.9744

    Received date: February 26, 2018

    Accepted date: February 26, 2018

    Published date: March 1, 2018

  • Web Service Composition, Optimization, Scheduling, Cloud Computing, Social Spider Algorithm.

  • Abstract

    Proficient QoS-based web service determination from the various number of practically substitutable web service to convey complex undertakings are a present call from the business world. QoS-based web service’s determination is a multi-target improvement issue. Current methodologies like FCFS, Priority and Multi-queue to explain it. Be that as it may, the execution time of QoS-based web services choice to accomplish the most extreme wellness esteem is as yet a worry for handy circulated applications. This paper proposes a productive method to take care of this issue utilizing the Social Spider Algorithm (SSA).

  • References

    1. J. G. R. Sathiaseelan, S. Albert Rabara, J. Ronald Martin, “MLSF: A Framework for Multi-Level Secure Composite Web Services” Ad-vances in Information Sciences and Service Sciences Volume 2, Number 4, December 2010.
    2. Hai Y, Yan L, Lu G. Dynamic prediction QoS-Aware web service composition model. JDCTA 2012; 6:490-498. https://doi.org/10.4156/jdcta.vol6.issue12.59.
    3. Zeng L, Benatallah B, Dumas M, Kalagnanam J, Sheng QZ. Quality driven web services composition. WWW 2003:411-421. https://doi.org/10.1145/775152.775211.
    4. Canfora G, Di Penta M, Esposito R, Villani ML. A lightweight ap-proach for QoS-aware service composition. ICSOC 2004.
    5. Yu T, Zhang Y, Lin KJ. Efficient algorithms for Web services selec-tion with end-to-end QoS constraints. TWEB 2007.
    6. Christo Ananth, M.Danya Priyadharshini, “A Secure Hash Message Authentication Code to avoid Certificate Revocation list Checking in Vehicular Adhoc networks”, International Journal of Applied Engi-neering Research (IJAER), Volume 10, Special Issue 2, 2015,(1250-1254).
    7. He J, Chen L, Wang X, Li Y. Web Service Composition Optimiza-tion Based on Improved Artificial Bee Colony Algorithm. JNW 2013; 8(9):2143-2149. https://doi.org/10.4304/jnw.8.9.2143-2149.
    8. Zhang T. QoS-aware Web Service Selection based on Particle Swarm Optimization. JNW 2013; 9(3):565-570.
    9. Joachim Biskup1, Barbara Carminati2, Elena Ferrari2, Frank M¨uller1, Sandra Wortmann1, “Towards Secure Execution Orders for Composite Web Services”, 2007 IEEE International Conference on Web Services (ICWS 2007) 0-7695-2924-0/07 $25.00 © 2007.
    10. Anis Charfi1 and Mira Mezini “Using Aspects for Security Engi-neering of Web Service Compositions”, Proceedings of the IEEE In-ternational Conference on Web Services (ICWS’05) 0-7695-2409-5/05 $20.00 IEEE.
    11. Mohsen Rouached and Claude Godart “Securing Web Service Compositions: Formalizing Authorization policies using Event Cal-culus” LORIA-INRIA-UMR 7503 BP 239, F-54506 Vandoeuvre-les-Nancy Cedex, France.
    12. J. Grundy, T. Panas, S. Singh, H. Stockle, “An approach to develop-ing web services with aspect-oriented component engineering”, In Proceedings of the 2nd Nordic Conference on Web Services, 2003.
    13. J. Hosking S. Singh, J. Grundy, J. Sun, “An architecture for develop-ing aspect-oriented web services”, In Proceedings of European Con-ference on Web Services, Vaxjo, Sweden, 2005.
    14. Christo Ananth, S.Mathu Muhila, N.Priyadharshini, G.Sudha, P.Venkateswari, H.Vishali, “A New Energy Efficient Routing Scheme for Data Gathering “,International Journal Of Advanced Re-search Trends In Engineering And Technology (IJARTET), Vol. 2, Issue 10, October 2015), pp: 1-4
    15. P. F. Pires, “Web transact: A framework for specifying and coordi-nating reliable web services compositions”, Technical report, Federal University of Rio De Janeiro, 2002.
    16. Kung-Kiu Lau, Cuong Tran, “Composite Web Services”, Emerging Web Services Technology, Springer Link, vol. 2, 2008.

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  • How to Cite

    N.Aruna, T., & Vijivinod, D. (2018). An efficient scheduling framework for improving QoS in web service composition. International Journal of Engineering and Technology, 7(1.9), 107-114. https://doi.org/10.14419/ijet.v7i1.9.9744