
CALIOPE is an advanced air quality monitoring and forecasting system that provides real-time, high-resolution data and insights to support public health protection and regulatory compliance.
ADVANCED AIR QUALITY MONITORING AND FORECASTING TOOLS
The CALIOPE and CALIOPE-Urban projects are advanced tools designed to monitor and accurately predict the Air Quality Index (AQI) and pollutant concentrations in real time, ranging from regional scales down to street-level detail.Through an intuitive dashboard, users can easily navigate, explore, and interpret complex yet essential air quality data, track AQI trends, and gain valuable insights into the factors affecting air quality. More experienced or technical users also have access to advanced features, including detailed exploration of emissions, meteorological data, and model evaluation.
INTEGRATED MODELLING FOR ACCURATE AIR QUALITY FORECASTS
CALIOPE combines advanced modelling systems to produce high-resolution forecasts that deliver accurate air quality information. These tools integrate atmospheric models and emission inventories to simulate pollution levels at both urban and regional scales. The forecasts are openly accessible to the general public, promoting awareness and enabling informed decision-making. By going beyond traditional monitoring networks, CALIOPE offers a comprehensive view of air quality, empowering public administrations to better protect public health, comply with EU regulations, and respond proactively to pollution episodes.
SUPPORTING PUBLIC ADMINISTRATIONS IN AIR QUALITY MANAGEMENT
CALIOPE is an essential tool for public administrations responsible for air quality management. It supports the implementation of mitigation measures and enables timely warnings to vulnerable populations during adverse air quality conditions. Additionally, CALIOPE provides valuable insights to air quality managers, supporting compliance with the European Air Quality Directive by offering a broader view of air quality—extending beyond the areas covered by traditional monitoring stations.