Work place: Department of Computer Science, Babasaheb Bhimrao Ambedkar University, (A Central University), Lucknow, 226025, UP, India
E-mail: nk_iet@yahoo.co.in
Website:
Research Interests: Cloud Computing
Biography
Dr. Narander Kumar received his Post Graduate degree and Ph. D. in CS & IT, from the Department of Computer Science and Information Technology, Faculty of Engineering and Technology, M.J.P. Rohilkhand University, Bareilly, Uttar Pradesh, India, in 2002 and 2009 respectively. His research interest includes Quality of Service (QoS), Computer Networks, Resource Management Mechanism, Networks for Multimedia Applications, and Performance Evaluation. His current research area is Cloud Computing Environment.
By A. Archana N. Kumar Mohammad Zubair Khan
DOI: https://doi.org/10.5815/ijcnis.2024.01.03, Pub. Date: 8 Feb. 2024
Cloud computing is an emerging concept that makes better use of a large number of distributed resources. The most significant issue that affects the cloud computing environment is resource provisioning. Better performance in the shortest amount of time is an important goal in resource provisioning. Create the best solution for dynamically provisioning resources in the shortest time possible. This paper aims to perform resource provisioning with an optimal performance solution in the shortest time. Hybridization of two Meta-heuristics techniques, such as HSMOSA (Hybrid Spider Monkey Optimization with Simulated Annealing), is proposed in resource provisioning for cloud environment. Finds the global and local value using Spider Monkey Optimization's (SMO) social behavior and then utilizes Simulated Annealing (SA) to search around the global value in each iteration. As a result, the proposed approach aids in enhancing their chances of improving their position. The CloudSimPlus Simulator is used to test the proposed approach. The fitness value, execution time, throughput, mean, and standard deviation of the proposed method were calculated over various tasks and execution iterations. These performance metrics are compared with the PSO-SA algorithm. Simulation results validate the better working of the proposed HSMOSA algorithm with minimum time compared to the PSO-SA algorithm.
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