The aim of the platform is to develop MYRTLE system and a control strategy to improve the management and the stabilization of the electrical network. Indeed, the electric grids island, not interconnected with a high level of integrationrenewable energy sources require a device to handle the intermittent thereof (control, storage).

The aims of this Test Facility is to: • Test centralized and decentralized control strategies in grid interconnected mode; • Test communication protocols and components including aspects related to energy trading; • A control and monitoring system built around IEC 61850 standard designed and prototyped; • Control strategies resulting from agent software to make use of these control and monitoring functions; • Development of intelligent modules embedding the required functions to allow a full integration of each generating/load unit into the system.

The project proposes to measure Modelec customer behavior in situations erasure electrical purposes: periods of peak demand, additional production sources used are those that use fossil fuel CO2 emissions. The interest is to shift some consumers use during these periods to limit the use of these carbon sources of energy. Precise knowledge of the customer's consumption, accompaniment through tools and tips him to automatically control some equipment and to change its behavior, give him the means to minimize overall annual consumption.

The project’s main goal is to develop a concept for flex-offers that specify electricity demand and supply which is flexible in time and amount and an infrastructural approach to process lots of these flex-offers issued by small consumers and producers in near real-time.The possibility to shift demand within the mass of households developed within the MIRACLE project will allow for a higher share of fluctuating renewable energy sources in the energy mix on the grid and reduce the peak demand.

The research project MILLENER (Thousand facilities for energy management in the islands) aims to reduce the electricity consumption of customers and to better integrate intermittent renewables into distribution networks in order to ensure real-time the balance between electricity demand and production. It takes into account the specificities of a non-isolated network interconnected, such as islands, and the need to educate users to control their consumption. These experiments will consist of facilities photovoltaic panels, energy storage systems and control of electrical consumers.

This project will demonstrate an optimisation of renewable energy supplies (RES). primarily wind energy sourced onshore and offshore. with an existing pumped storage power plant (PSPP). It will integrate smart meters with power demand and supply forecasting to enable consistency of power supply in a small European country (Lithuania). The lessons learnt from this demonstration project will be disseminate directly to the participants in this project and indirectly through them to major global Transmission System Operators (TSOs).

The purpose of the iTESLA project is to develop a common toolbox, allowing the different TSOs to increase coordination and harmonize operating procedures.

The objective of Internet of Energy (IoE) is to develop hardware. software and middleware for seamless. secure connectivity and interoperability achieved by connecting the Internet with the energy grids.The project will evaluate and develop the needed ICT for the efficient implementation in future smart grid structures. RWE will consider -as a WP leader- several business models from the perspective of a grid operator.

INTEGRIS project proposes the development of a novel and flexible ICT infrastructure based on a hybrid Power Line Communication-wireless integrated communications system able to completely and efficiently fulfill the communications requirements foreseen for the Smart Electricity Networks of the future.

The INTEGRAL project aims to build and demonstrate an industry-quality reference solution for DER aggregation-level control and coordination based on commonly available ICT components, standards and platforms. During the project, three field demonstrations have been developed, that demonstrated the practical validity of the Integrated Distributed Control solutions that have being developed. Each pilots was set up in a different country and each pilot targets a different aspect.