The project EMILI (“Emergency Management in Large Infrastructures”) is a European project which aims at a new generation of measure that is modifying risk
[Click for more information]control systems for large Critical Infrastructures (CIs) like power grids and telecommunication systems, airports, railway / metro systems, and oil and gas pipelines. These See critical infrastructure
[Click for more information]CI currently undergo substantial technical, economic, organisational, political, and legal changes. Their meaning for all aspects of human society is steadily increasing, and their dependencies from each other are growing.
A new approach to measure that is modifying risk
[Click for more information]control them is needed in order to improve safety and security of large Infrastructures under these conditions - especially in the case of emergencies and crisis.
This EMILI approach will be based on next generation Web technologies like An event describes what happens to a component in the CI model if a condition is fulfilled, e.g. the tripping of a transmission line at a certain time.
[Click for more information]event processing, active Web, and Semantic Web.
EMILI brings together leading research groups in operational and data management, complex An event describes what happens to a component in the CI model if a condition is fulfilled, e.g. the tripping of a transmission line at a certain time.
[Click for more information]event processing, reactivity, knowledge representation, and SCADA with industrial partners offering use cases and know-how for SCADA in airports, public transport, and power grids. EMILI will strengthen the European research in The European Council Directive 2008/114/EC defines: ‘Critical infrastructure’ (CI) means an asset, system or part thereof located in Member States which is essential for the maintenance of vital societal functions, health, safety, security, economic..
[Click for more information]critical infrastructure emergency management, expanding it with a focus on An event describes what happens to a component in the CI model if a condition is fulfilled, e.g. the tripping of a transmission line at a certain time.
[Click for more information]event-based and executable knowledge, and transfer it into areas of vital socio-economic relevance.