DREAM : An ICT architecture framework for heterarchical coordination in power systems
conference paper
Agent based techniques are used to coordinate demand and supply for increasing the embedding capacity of dispersed, badly predictable, renewable energy based power systems. VPPs (Virtual Power Plants) using this technology have demonstrated their feasibility in field tests and currently are scaled up to satisfy requirements for massive rollout [1]. These agent-based VPPs mostly are used in normal operating conditions of electricity grids. The VPPs typically have one fixed configuration that agents use for coordination. More operational flexibility can be achieved if VPP-configurations can be switched depending upon the current status of the grid (normal, critical, emergency [2]) in a heterarchical fashion. The DREAM software architecture framework is designed to satisfy the requirements for heterarchic operation of the grid. In this paper the design considerations are discussed, an in-depth analysis of the package structure for the information architecture components and a number of applications is presented. © 2015 IEEE.
Topics
distributed computingreconfigurable architecturessmart gridsSoftware agentsDistributed computer systemsReconfigurable architecturesRenewable energy resourcesSoftware agentsAgent-based techniqueArchitecture frameworksDesign considerationsInformation architecturesNormal operating conditionsOperational flexibilitySmart gridVirtual power plantsElectric power transmission networks
TNO Identifier
530889
ISBN
9781479976935
Publisher
Institute of Electrical and Electronics Engineers Inc.
Article nr.
7232832
Source title
2015 IEEE Eindhoven PowerTech, PowerTech 2015
Files
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