Computer-implemented method and system for setting up an air traffic simulator

1 . A computer-implemented method for setting up an air traffic management (ATM) simulator in an airport, comprising: receiving a set of undetermined parameters and rules for configuring an ATM simulator in an airport, retrieving a historical data set of variables associated with trajectory and aircraft states in an airspace region during a time interval, statistically analyzing the historical data set for modelling the airspace region and the airport, and identifying relationships between variables of the historical data set during the time interval relating to at least one undetermined parameter or rule, determining a parameter value or rule for configuring the ATM simulator corresponding with the at least one identified relationship. 2 . The computer-implemented method of claim 1 , wherein the historical data set comprise weather conditions during the time interval, and the step of statistically analyzing the historical data further comprises identifying changes in weather conditions associated with a different airport configuration to determine an operational context rule for configuring the ATM simulator. 3 . The computer-implemented method of claim 1 , wherein the historical data comprise aircraft tracks and flight plans arriving at or departing from the airport and the step of statistically analyzing the historical data set further comprises: comparing flight plans with corresponding aircraft tracks, identifying deviations in the execution of flight plans, and associating said deviations with an air traffic control (ATCo) intervention to determine an ATCo rule for configuring the ATM simulator. 4 . The computer-implemented method of claim 1 , wherein it further comprises: reconstructing the trajectories of a plurality of flights according to recorded aircraft tracks, aircraft performance information and weather conditions during the time interval; analyzing lateral and vertical profiles using pattern recognition in the reconstructed trajectories to set a parameter or infer an operational context rule configuring the ATM simulator. 5 . The computer-implemented method of claim 4 , wherein it further comprises refining the operational context rule by further analyzing historical data according to flight origin to infer an arrival procedure in the airport. 6 . The computer-implemented method of claim 4 , wherein it further comprises refining the operational context rule by further analyzing historical data according to flight destination to infer a departure procedure in the airport. 7 . The computer-implemented method of claim 5 , wherein refining the operational context rule by further analyzing historical data considers at least one of the following information: weather conditions, route, aircraft type, flight operator, time schedule or a combination thereof. 8 . The computer-implemented method of claim 1 , wherein identifying relationships between variables comprises identifying at least one relationship between historical data of aircraft speed and aircraft distance from the runway as obtained from the historical data set, and wherein determining a parameter value or rule comprises determining an ATCo rule associated with a maximum aircraft speed for an aircraft that is within 20 NM of the runway, based on the historical data, where the maximum aircraft speed is used as a rule for configuring the ATM simulator, corresponding with the at least one identified relationship between aircraft speed and aircraft distance from the runway. 9 . The computer-implemented method of claim 1 , wherein identifying relationships between variables comprises identifying at least one relationship in the form of deviations between flight plans and corresponding aircraft tracks obtained from the historical data set, which deviations relate to at least one undetermined parameter or rule an intervention by the ATCo, and determining a parameter value or rule comprises determining a rule associated with an intervention by the ATCo based on deviations between flight plans and corresponding aircraft tracks, where intervention having an frequency of occurrence over a threshold is implemented as a rule that is used for configuring the ATM simulator. 10 . A system for setting up an air traffic management (ATM) simulator in an airport, comprising: an extracting module for extracting a set of undetermined parameters and rules for configuring an ATM simulator in an airport, a retrieving module for retrieving a historical data set of variables associated with trajectory and aircraft states in an airspace region during a time interval, an inferring module configured to statistically analyze the historical data set for modelling the airspace region and the airport to identify relationships between variables of the historical data set during the time interval relating to at least one undetermined parameter or rule, wherein the inferring module is further configured to determine a parameter value or rule for configuring the ATM simulator corresponding with the at least one identified relationship. 11 . The system of claim 10 , wherein the historical data set comprise weather conditions during the time interval, and the inferring module is configured to identify changes in weather conditions associated with a different airport configuration to determine an operational context rule for configuring the ATM simulator. 12 . The system of claim 10 , wherein the historical data comprise aircraft tracks and flight plans arriving at or departing from the airport and the inferring module is configured to compare flight plans with corresponding aircraft tracks, to identify deviations in the execution of flight plans and to associate said deviations with an air traffic control (ATCo) intervention to determine an ATCo rule for configuring the ATM simulator. 13 . The system of claim 10 , further comprising a trajectory reconstruction module configured to reconstruct the trajectories of a plurality of flights according to recorded aircraft tracks, aircraft performance information and weather conditions during the time interval, wherein the trajectory reconstruction module is coupled with the inferring module for analyzing lateral and vertical profiles using pattern recognition in the reconstructed trajectories in order to set a parameter or to infer an operational context rule for configuring the ATM simulator. 14 . The system of claim 13 , wherein it further comprises an operational context builder configured to enrich the operational context wherein the operational context builder is coupled with the inferring module to refine an inferred operational context rule by further analyzing historical data according to: flight origin in order to infer an arrival procedure in the airport, or flight destination in order to infer a departure procedure in the airport. 15 . The system of claim la wherein historical data is analyzed considering at least one of the following information: weather conditions, route, aircraft type, flight operator, time schedule or a combination thereof.