The objective is to develop a modular grid management solution consisting of a set of interoperable off-line and on-line software tools for an optimized design, planning, operation and maintenance
The ASCAPE project is creating an open AI infrastructure for health stakeholders such as hospitals with the ultimate goal of improving quality of life (QoL) of patients.
The project aims to allow the power distribution grid to operate in a secure and stable manner when a large share of variable renewable electricity sources is connected to low and medium voltage gr
Aims to lower the barriers for Big Data, IoT, and AI-driven innovation, boosting regulatory compliance, and stimulating additional investment. The project will provide:
Aims to demonstrate innovative 100% fossil free heating and cooling solutions for new and existing district heating and cooling systems. The solutions will integrate:
Aims to develop a sophisticated mass centralised evacuation system, based on a radical re-thinking of Mass Evacuation Vessels (MEVs) combined with an intelligent ecosystem consisting of components
Aims at increasing the role in Europe for Local Energy Communities (LECs) to speed up the grid integration of Renewable Energy Sources (RES), facing challenges as the lack of flexibility when plann
Aims to deliver a community-driven scalable and replicable approach, to implement new business models and technologies supporting clean production and shared distribution of energy in local communi
Aims to develop the first European federated architecture for data sharing serving the European logistics community of shippers, logistics service providers, mobility infrastructure providers, citi
MERLON introduces an integrated modular local energy management framework for the holistic operational optimisation of local energy systems in the presence of high shares of volatile distributed re
Aims to reinforce the European leadership in aeronautics by developing an open-source solution for aircraft maintenance, the Integrated Fleet Health Management (IFHM) system.