Interconnection of Electrical Power System Grids via Cloud: Vision and Framework
Uday Arun Deshpande

Uday Arun Deshpande, M.E Scholar,  Department of Electrical and Electronics Engineering, NITTTR, Bhopal (M.P), India.
Manuscript received on 10 September 2014 | Revised Manuscript received on 20 September 2014 | Manuscript Published on 30 September 2014 | PP: 48-51 | Volume-4 Issue-4, September 2014 | Retrieval Number: D1797094414/14©BEIESP
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© The Authors. Blue Eyes Intelligence Engineering and Sciences Publication (BEIESP). This is an open access article under the CC-BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/)

Abstract: This paper deals with the interconnection of electrical power system grids using cloud. This cloud includes the type of each user interface and the linkages between them.’ A modern power grid needs to become smarter in order to provide an affordable, reliable, and sustainable supply of electricity. For these reasons, considerable activity has been carried out and the majority of these activities emphasized only the distribution grid and demand side leaving the big picture of the transmission grid in the context of smart grids unclear. In this paper I had tried to produce a unique vision for future transmission grids, in this vision, each smart transmission grid is regarded as an integrated system that functionally consists of three interactive, smart components, i.e., smart control centers, smart transmission networks, and smart substations. The features and functions of each of the three functional components, as well as the enabling technologies to achieve these features and functions, are discussed in detail. With the help of this paper propose Greenhead, a holistic resource management framework for embedding VDCs across geographically distributed data centers connected through a backbone network. The goal of Greenhead is to maximize the cloud provider’s revenue while ensuring that the infrastructure is as environment-friendly as possible with use of cloud, where Cloud computing promises to provide on-demand computing, storage, and networking resources. However, most cloud providers simply offer virtual machines (VMs) without bandwidth and delay guarantees, without hurting the performance of the deployed services. To evaluate the effectiveness of proposal, conducted extensive research on various cloud service providers like amazon, windows azure, hp cloud etc.. Results show that with use of cloud improves requests’ acceptance ratio of endurance and while ensuring high usage of renewable energy and minimal carbon footprint.
Keywords: Power System Grid, Interconnections of Grids, Cloud, Bilateral Network Connection of Grids.

Scope of the Article: Patterns and Frameworks