PROFIT MAXIMIZATION IN CLOUD SERVICE WITH IMPROVED QOS IN CLOUD COMPUTING
Journal: International Journal of Advanced Research in Engineering and Technology (IJARET) (Vol.11, No. 06)Publication Date: 2020-06-30
Authors : Mahantesh K Pattanshetti;
Page : 1329-1338
Keywords : Cloud Computing; SaS (Software as Service); Quality of Service; Service level Agreement (SLA); Cloud Service.;
Abstract
The role of IT tools and services offered by cloud computing environments is critical for the success of organisations in today's fiercely competitive business world. These services are provided by SaaS providers, who serve as bridges between organisations and the resources that are out there. In order to obtain a competitive advantage, these suppliers' top priority is to guarantee the best resource utilisation while upholding quality standards and maximising revenue. By creating an algorithm that overcomes the shortcomings of the current system, this research attempts to increase the profitability of SaaS providers.The renting of resources in a heterogeneous environment is one suggested strategy to increase earnings. To improve resource utilisation, dynamic scheduling and rescheduling of available resources are also used.The goal of this research is to improve SaaS providers' financial performance through the creation of sophisticated resource allocation and scheduling algorithms. SaaS suppliers can achieve a competitive advantage in the challenging business environment by maximising resource utilisation, keeping expenses under control, and placing a high priority on customer happiness.
Other Latest Articles
- AN EFFICIENT APPROACH FOR REVERSIBLE DATA HIDING STEGANOGRAPHY COMBINED WITH CRYPTOGRAPHY
- SECURE ACCESS TO MEDICAL HEALTH RECORD THROUGH ATTRIBUTE BASED ENCRYPTION IN CLOUD
- TOWARDS A BETTER POLICY FOR AIRLINE PASSENGERS WITH REDUCED MOBILITY
- ANALYSIS OF THE RAIL CARGO TRANSPORT VOLUME IN POLAND IN 2010-2021
- RESULTS OF USING SUSTAINABLE AVIATION FUEL IN TRANSPORT AIRCRAFT ON DIFFERENT FLIGHT LEVELS AND THEIR INFLUENCE ON CARBON-DIOXIDE CO2 EMISSIONS
Last modified: 2023-06-09 15:21:23