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RISS 인기검색어
- 검색키워드
- 저자 : Sandip Roy (검색결과 3 건)
- 무료
- 기관 내 무료
- 유료
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Cloud-Enabled Data Center Organization using K-D Tree
Sandip Roy,Rajesh Bose,Tanaya Roy,Debabrata Sarddar 보안공학연구지원센터 2015 International Journal of Database Theory and Appli Vol.8 No.3
An efficient load balancing algorithm in the field of cloud computing is absolutely essential in order to have a cloud network with graceful performance satisfying user expectation. Inspite of the existence of handful lightly loaded data centers, numerous heavily overloaded data centers may lead to a performance degradation of overall cloud network. Proper workload distribution may improve the overall performance of the cloud system. Now a day’s eminent cloud division rules are highly demanding algorithm for distributing workloads among various cloud server nodes deployed in cloud-enabled data centers scattered over the geographical regions. For the researcher, cloud division rule and optimal cloud server node searching are the most demanding jobs in load balancing leading towards more efficient cloud network and improve users’ satisfaction. This paper presents an expeditious cloud division rule based on geographical location of the cloud-enabled data centers distributed over earth surface and builds a two-dimensional space partition k-d tree to partition them in order to search intended cloud server node efficiently. Our proposed organization scheme can be utilized for active monitoring load balancing algorithm to improve the resource utilization for high performance in present cloud computing environment.
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Rajesh Bose,Sandip Roy,Debabrata Sarddar 보안공학연구지원센터 2015 International Journal of Hybrid Information Techno Vol.8 No.6
With an increasing focus on mobility and an innate desire to access data and information efficiently and as quickly as possible, users are turning to technologies that can service their needs with the minimum of fuss and a high degree of reliability. In this paper, we have designed a proposed model that seeks to combine Billboard Manager with an open source cloud operating system known as eyeOS that, together, can help achieve the goals desired in a private cloud environment. The eyeOS is essentially a web-based operating system that allows file read/write/update operations in cloud. The architecture that we have proposed in this paper, involves a mix of the Internet, a private cloud zone, and a Billboard Manager managing an eyeOS powered layer. In this model, any user would be able to create, update, access, and delete almost any file from anywhere where there is Internet connectivity options available. The Billboard Manager would enable users to store or retrieve files across distributed storage nodes in a private cloud zone. The architecture that we have proposed is aimed at providing a thin-client architecture to any user with a PC, laptop, or a suitably-enabled mobile computing device, such that the user is able to collaborate and communicate his/her work within a private cloud zone from almost any location.
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User Satisfied Online IaaS Cloud Billing Architecture with the Help of Billboard Manager
Rajesh Bose,Sandip Roy,Debabrata Sarddar 보안공학연구지원센터 2015 International Journal of Grid and Distributed Comp Vol.8 No.2
In the context of cloud computing, no other aspect looms larger over all others than billing in Infrastructure-as-a-Service or IaaS as it is also known. This paper proposes a checklist option on IaaS Online Billing System that is described as being transparent in its computation in incorporating information on cloud resources availed and consumed, the period under consideration, and the charges accrued, thereon, for utilizing services against payment on-demand. We have discussed here, our proposed Billboard Manager with the checklist option which helps the cloud user in ascertaining how much resources have been consumed and then pay for the services enjoyed. At preset intervals of customers’ choosing, a cloud service provider would be able to inform the users the actual usage. A user is required to thoroughly examine the information and approve the same, for final billing to take place. In case of discrepancy, a user would have the option to raise issues in pre-billing charge statement with the cloud service provider for mutual verification; and to arrive at the final bill. With the aid of this system, customer satisfaction could be significantly enhanced.
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