Multi-Agent -Master Resource Finding Engine for Fast and Efficient Dynamic Resource Finding in Cloud Computing
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2018-09-01 https://doi.org/10.14419/ijet.v7i3.34.18965 -
Cloud Computing, Resource Finding, Software Resource, Job Scheduling, Semantic Model. -
Abstract
Resource finding is an enormous and tedious task in the cloud environment. There are various protocols suggested in existing approach to deal the resource finding. But from job scheduling to resource identification none of the approaches is available for best. It leads to a tailoring of functionalities in different phases like job scheduling, resource finding and resource identification. This paper analyses the automation from the job scheduling phase to resource allocation phase which includes, semantic model, optimization, Master Resource Finding Engine (MRFE). A decision-making mechanism called adjudicator is a control unit which collects input from all the above-said phase models and provides the best and efficient resource to the requirement. In this paper, a new model is provisioned to attain all the phases explained above and compared with resource simulations. The results were analyzed in terms of quality of resource, performance, resources acquired, patterns considered for semantic finding, interactive jobs, a workload of resources in normal and peak time -
References
[1] Jian Su; Wei Guo; "A survey of service discovery protocols for mobile ad hoc networks"; Communications and Systems, pp: 398-404, 2008.
[2] Feng Zhu, Matt W. Mutka and Lionel M. Ni, “Service Discovery inPervasive ComputingEnvironmentsâ€, Published by the IEEE CS and IEEE Com. Soc., IEEE, 2005.
[3] The Salutation Consortium Inc., “Salutation Architecture Specification Part 1, Version 2.1 Edition,†http://www.salutation.org, 1999.
[4] F. Casati, S. Ilnicki, L. Jin, V. Krishnamoorthy, and M. Shan, “Adaptive and Dynamic Service Composition in eFlowâ€, Technical Report, HPL-200039, Software Technology Laboratory, 2000.
[5] H. Chen, A. Joshi, and T. Finin, “Dynamic Service Discovery for Mobile Computing: Intelligent Agents Meet Jini in the Aether,†Baltzer Science J. Cluster Computing, special issue on advances in distributed and mobile systems and comm., 2001.
[6] T. Hodes et al., “An Architecture for a Secure Service Discovery Service,†Proc. Fifth Int’l Conf. Mobile Computing and Networks, 1999.
[7] R.H. Katz, E.A. Brewer, and Z.M. Mao, “Fault-Tolerant, Scalable,Wide-Area Internet Service Composition,†Technical ReportUCB/CSD-1-1129, CS Division, EECS Department, Univ. of California, Berkeley, 2001.
[8] D. Mennie and B. Pagurek, “An Architecture to Support DynamicComposition of Service Components,†Proc. Fifth Int’l WorkshopComponent-Oriented Programming (WCOP), 2000.
[9] V.Sundramoorthy, Hans Scholten, “Challenges In the At Home Anywhere (@HA) Service Discovery Protocolâ€, Distributed and Embedded Systems group, Faculty of Computer Science- University of Twente.
[10] F. Hanssen, P. Hartel, T. Hattink, P. Jansen and J. Scholten, J. Wijnberg. A Real-Time Ethernet Network atHome.Proceedings Work-in-Progress session fourteenth Euromicro international conference on real-timesystems, Vienna, Austria, pp. 5-8, 2002.
[11] K. Arnold, B. Osullivan, R.W. Scheifler, J. Waldo, and A. Wollrath, The Jini Specification (The Jini Technology). Reading, Mass.: Addison-Wesley, June 1999.
[12] The Salutation Consortium Inc., “Salutation Architecture Specification Part 1, Version 2.1 Edition,†http://www.salutation.org, 1999.
[13] Bluetooth SIG, “Specification,†http://bluetooth.org, 2004.
[14] Dipanjan Chakraborty, AnupamJoshi, Yelena Yesha, and Tim Finin, “Toward Distributed Service Discovery in Pervasive Computing Environmentsâ€, IEEE Transactions On Mobile Computing, VOL. 5, NO. 2, 2006.
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How to Cite
Muthulakshmi, B., & Somasundaram, K. (2018). Multi-Agent -Master Resource Finding Engine for Fast and Efficient Dynamic Resource Finding in Cloud Computing. International Journal of Engineering & Technology, 7(3.34), 206-209. https://doi.org/10.14419/ijet.v7i3.34.18965Received date: 2018-09-04
Accepted date: 2018-09-04
Published date: 2018-09-01