The IEEE Computer Society Smart Grid Vision Project opens opportunites for computational intelligence

2013 IEEE Conference on Evolving and Adaptive Intelligent Systems (EAIS) Pub Date : 2013-04-16 DOI:10.1109/EAIS.2013.6604117

D. Cartes, J. Chow, D. McCaugherty, S. Widergren, G. Venayagamoorthy

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引用次数: 6

Abstract

The IEEE Computer Society Smart Grid Vision Project (CS-SGVP) was chartered to develop Smart Grid visions looking forward as far as 30 years into the future. At the completion of the project it was realized that to address the complexity of a Smart Grid with vast numbers of intelligent connected devices and systems, computational intelligence techniques must move from top-down to the lowest levels of architectures, with interactive cooperation between smart components, each with a level of autonomy. The CS-SGVP team emphasized creative thought leadership and “blue sky” thinking to identify future Smart Grid operational visions and the role of computing to achieve these visions. The CS-SGVP team developed its visions using a three-tiered approach. Architectural concepts describe Smart Grid goals and characteristics, general grid types, as well as computing concepts considered common across grid types. Functional concepts describe how the grid will operate. Technological concepts describe the roles of certain technologies within the Smart Grid. The CS-SGVP expects that over the course of many years, various visions will come to fruition.

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IEEE计算机协会智能电网视觉项目为计算智能提供了机会

IEEE计算机协会智能电网愿景项目(CS-SGVP)被授权开发未来30年的智能电网愿景。在项目完成时，人们意识到，为了解决具有大量智能连接设备和系统的智能电网的复杂性，计算智能技术必须从自上而下移动到最低层次的架构，并在智能组件之间进行交互合作，每个组件都具有一定程度的自治。CS-SGVP团队强调创造性思维领导和“蓝天”思维，以确定未来智能电网的运营愿景和计算在实现这些愿景中的作用。CS-SGVP团队使用三层方法开发其愿景。体系结构概念描述了智能网格的目标和特征、一般网格类型，以及被认为跨网格类型通用的计算概念。功能概念描述了网格将如何运行。技术概念描述了某些技术在智能电网中的作用。CS-SGVP期望在多年的过程中，各种愿景将实现。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 IEEE Conference on Evolving and Adaptive Intelligent Systems (EAIS)

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