In short




2020-06-01 > 2022-11-30


€ 998 165


€ 998 165




Air operations largely use weather information (visibility, wind, precipitation) to make the air traffic flow safe, continuous and efficient. Runway choice, arrival and departure routes are all affected by local weather. As climate changes are ongoing, with larger variability in local phenomena, available information on the weather on short and longer notice are increasing and technology is being improved to use this information.

CREATE aims to achieve innovative procedures in ATM to reduce climate and environmental impact, while becoming more resilient to weather phenomena.  CREATE (1) studies the vulnerability of the ATM system with respect to weather phenomena to improve ATM procedures (2) study the impact of aviation on the environment both short and long term, in order to propose ATM operational changes able to reduce such impact (3) study possible new meteo tools and methodologies to integrate their use in ATM (4) study and propose ATM operational changes to improve efficiency of air traffic management and reduce related environmental impact for both en-route and TMA flight phases, while improving the ATM resilience with respect to weather phenomena (5) validate proposed ATM operational changes to reduce ATM environmental impact and improve ATM resilience with respect to weather.

The ATM system is being looked at from the en-route operations and TMA operations perspectives. CREATE utilizes curved trajectories, to be optimized on-board basing on the CREATE optimization tool. Around these tactically modified trajectories, a concept of operation is developed based on the SESAR principles for TBO and i4D, enabling the Network Manager for more efficient overall flows optimization, strengthen ATM resilience. CREATE relies on weather ensemble forecasting models, allowing high resolutions and short-range forecasts, thus contribution to the reduction of aviation’s impact on the environment and climate and improve ATM’s resilience to these phenomena.


Università degli Studi di Napoli Parthenope (Coordinator)

Centro Italiano Ricerche Aerospaziali.

Stichting Nationaal Lucht- en Ruimtevaartlaboratorium

Universitat Politècnica de Catalunya


Ilmatieteen laitos

This project has received funding from the SESAR Joint Undertaking under the European Union's Horizon 2020 research and innovation programme under grant agreement No 890898

European Union