The main objective of this project is to facilitate the integration of RES in the electricity grid due to the usage of the flexibility potential in the energy consuming process of industrial customers.

The e-DASH project aims at the harmonization of electricity demand in Smart Grids for sustainable integration of electric vehicles. This is addressed by an intelligent charging system supported with real-time exchange of charge related data between EVs and the grid. Adopting the e-DASH approach allows high current fast-charging for large numbers of EVs in a brand-independent way and price-adaptive charging/reverse-charging at optimum price for the customer leading to increased desirability of EVs. In order to prevent damages of costly EV batteries, sophisticated charge control is inevitable.

The RESILIENT project aims to design, develop, install and assess the energy and environmental benefits of a new integrated concept of interconnectivity between buildings, DER, grids and other networks at a district level. The RESILIENT approach will combine different innovative technologies including smart ICT components, optimized energy generation and storage technologies, also for RES, integrated to provide real time accounts of energy demand and supply at a district level and assist in decision-making process.

Mirubee proposes an electricity metering system whose peculiarity lies in the possibility to capture the electricity data on the individual consumption of each single device connected to the grid and then transmit it to the cloud for further elaboration.The solution proposed by Mirubee is completely open to be connected or integrated with other metering systems.The innovation which Mirubee’s projects provides is the possibility of identifying the consumption each single individual device (refrigerator, washer, hair-dryer, etc.) through their “digital signature”.Data acquired by the system is t

Sport2 develop energy efficient products and services dedicated to needs and unique characteristics of sport facilities.In short, we will excite the sport facility community about energy efficiency and develop ICT related energy consultancy services, hardware, and software to reduce energy consumption and emissions production by 30% in these facilities with a 5 year return on investment.

eDIANA addresses the need of achieving energy efficiency in buildings through innovative solutions based on embedded systems.The eDIANA Platform is a reference model-based architecture, implemented through an open middleware including specifications, design methods, tools, standards, and procedures for platform validation and verification. eDIANA Platform will enable the interoperability of heterogeneous devices at the Cell and MacroCell levels, and it will provide the hook to connect the building as a node in the producer/consumer electrical grid.

FINESCE builds on and extends the results of the FI-PPP FINSENY project to realise sustainable real time smart energy services. The consortium includes leading energy and ICT operators, manufacturers and service providers as well as research organisations and SMEs from all over Europe. Together, they contribute directly to strongly focused trials and business innovation. The project features a scale and scope ensuring the FINESCE results will drive the FI-WARE and Future Internet success and long-term exploitation internationally.

E2SG aims at developing and demonstrating key enabling technologies in the following fields1) node-grid interfaces – especially between generating nodes and the grid2) grid-sensing/metering – to collect the information needed for management and control3) over-the-grid communication – to effectively carry sensing and control information where it is needed grid-topology and control – to understand and design connection-induced behaviours improving reliability and to control (local) energy production/distribution by exploiting advanced storage policies and energy routing – to develop flexible and

The objectives of the project are to develop innovative methods for efficient design and operation of a smart grid and to coordinate applications of innovative smart grids.

Our society is facing both energy and competitiveness challenges. These challenges are tightly linked and require new dynamic interactions between energy producers and energy consumers, between machines, between systems, between people and systems, etc.