A Secure Dynamic Job Scheduling on Smart Grid using RSA Algorithm

TL;DR

This paper proposes a secure, RSA-based dynamic job scheduling model for smart grids that enhances processing time and resource utilization through job grouping strategies.

Contribution

It introduces a novel RSA-based security mechanism integrated with dynamic job grouping for improved scheduling in grid computing environments.

Findings

Significant reduction in job processing time

Improved resource utilization

Enhanced security in grid scheduling

Abstract

Grid computing is a computation methodology using group of clusters connected over high-speed networks that involves coordinating and sharing computational power, data storage and network resources. Integrating a set of clusters of workstations into one large computing environment can improve the availability of computing power. The goal of scheduling is to achieve highest possible system throughput and to match the application need with the available computing resources. A secure scheduling model is presented, that performs job grouping activity at runtime. In a Grid environment, security is necessary because grid is a dynamic environment and participates are independent bodies with different policies, objectives and requirements. Authentication should be verified for Grid resource owners as well as resource requesters before they are allowed to join in scheduling activities. In order to achieve secure resource and job scheduling including minimum processing time and maximum resource utilization, A Secure Resource by using RSA algorithm on Networking and Job Scheduling model with Job Grouping strategy(JGS) in Grid Computing has been proposed. The result shows significant improvement in the processing time of jobs and resource utilization as compared to dynamic job grouping (DJG) based scheduling on smart grids (SG).