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IFFO: An Improved Fruit Fly Optimization Algorithm for Multiple Workflow Scheduling Minimizing Cost and Makespan in Cloud Computing Environments

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  • Ambika Aggarwal
  • Priti Dimri
  • Amit Agarwal
  • Madhushi Verma
  • Hesham A. Alhumyani
  • Mehedi Masud

Abstract

Cloud computing platforms have been extensively using scientific workflows to execute large-scale applications. However, multiobjective workflow scheduling with scientific standards to optimize QoS parameters is a challenging task. Various metaheuristic scheduling techniques have been proposed to satisfy the QoS parameters like makespan, cost, and resource utilization. Still, traditional metaheuristic approaches are incompetent to maintain agreeable equilibrium between exploration and exploitation of the search space because of their limitations like getting trapped in local optimum value at later evolution stages and higher-dimensional nonlinear optimization problem. This paper proposes an improved Fruit Fly Optimization (IFFO) algorithm to minimize makespan and cost for scheduling multiple workflows in the cloud computing environment. The proposed algorithm is evaluated using CloudSim for scheduling multiple workflows. The comparative results depict that the proposed algorithm IFFO outperforms FFO, PSO, and GA.

Suggested Citation

  • Ambika Aggarwal & Priti Dimri & Amit Agarwal & Madhushi Verma & Hesham A. Alhumyani & Mehedi Masud, 2021. "IFFO: An Improved Fruit Fly Optimization Algorithm for Multiple Workflow Scheduling Minimizing Cost and Makespan in Cloud Computing Environments," Mathematical Problems in Engineering, Hindawi, vol. 2021, pages 1-9, June.
    • Handle: RePEc:hin:jnlmpe:5205530
    DOI: 10.1155/2021/5205530
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    Cited by:

    1. Changkang Sun & Qinglong Shao & Ziqi Zhou & Junxiao Zhang, 2024. "An Enhanced FCM Clustering Method Based on Multi-Strategy Tuna Swarm Optimization," Mathematics, MDPI, vol. 12(3), pages 1-16, January.

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