Apparatus and method for interactive analysis of aviation data

What is claimed: 1. An apparatus for querying four-dimensional geospatial air traffic data that is associated with a plurality of flight routes and visually displaying and interacting with query results retrieved from the four-dimensional geospatial air traffic data, comprising: a data ingestion and storage stack that includes a database and a data cache, the data ingestion and storage stack receiving the four-dimensional geospatial air traffic data in a predetermined format and storing the four-dimensional geospatial air traffic data in the database; and a multi-touch screen user interface that presents flight route information in multiple layers to provide a three-dimensional interface to the four-dimensional geospatial air traffic data, the flight route information including the query results from the database, wherein, in response to user inputs received by the apparatus, a subset of the four-dimensional geospatial air traffic data is presented in the multi-touch screen user interface as initial query results, wherein subsequent user inputs are received as touch gestures in the multi-touch screen user interface to refocus the query results by causing the apparatus to query the database to update the initial query results displayed in the multi-touch screen user interface in near real-time, and wherein the multiple layers of the multi-touch screen user interface include a geographical map layer, spatiotemporal data layer, a querying and aggregation layer, a user interface widget layer and a rendering layer. 2. The apparatus of claim 1 , wherein a sampling strategy is used to return samples from random segments of the query results for display in the multi-touch screen user interface. 3. The apparatus of claim 2 , wherein the query results are scanned in order to select representative points from different ones of the random segments. 4. The apparatus of claim 2 , wherein a lazy loading mechanism is used to load additional query results in the multi-touch screen user interface while the apparatus is idle. 5. The apparatus of claim 1 , wherein, the query results are visualizations of a subset of the plurality of flight rights that are displayed in the multi-touch screen user interface. 6. The apparatus of claim 5 , wherein touch gestures alter at least one of a latitude, a longitude, a time, a day and an altitude of the subset of the plurality of flight routes that is displayed in the multi-touch screen user interface. 7. A method for querying four-dimensional geospatial air traffic data that is associated with a plurality of flight routes and visually interacting with query results retrieved from the four-dimensional geospatial air traffic data, comprising: receiving an initial query that is run against a database that stores the four-dimensional geospatial air traffic data; returning query results of flight route information from the initial query to present display of initial query results in a multi-touch screen user interface; receiving subsequent user inputs as touch gestures in the multi-touch screen user interface to refocus the query results and to generate at least one subsequent query that is run against the database to update and display the query results in the multi-touch screen user interface in near real-time; and presenting the results in a plurality of layers in the multi-touch screen user interface to provide a three-dimensional interface to the four-dimensional geospatial air traffic data, wherein the multiple layers of the multi-touch screen user interface include a geographical map layer, spatiotemporal data layer, a querying and aggregation layer, a user interface widget layer and a rendering layer. 8. The method of claim 7 , further comprising using a sampling strategy to return samples from random segments of the query results for display in the multi-touch screen user interface. 9. The method of claim 8 , further comprising scanning the query results to select representative points from different ones of the random segments. 10. The method of claim 8 , further comprising using a lazy loading mechanism to load additional query results in the multi-touch screen user interface during periods of idle time. 11. The method of claim 7 , wherein, the query results are visualizations of a subset of the plurality of flight rights that are displayed in the multi-touch screen user interface. 12. The method of claim 11 , wherein touch gestures alter at least one of a latitude, a longitude, a time, a day and an altitude of the subset of the plurality of flight routes that is displayed in the multi-touch screen user interface. 13. An apparatus for querying four-dimensional geospatial air traffic data that is associated with a plurality of flight routes and visually displaying and interacting with query results retrieved from the four-dimensional geospatial air traffic data, comprising: a data ingestion and storage stack that includes a database and a data cache, the data ingestion and storage stack receiving the four-dimensional geospatial air traffic data in an Aircraft Situation Display to Industry (ASDI) data format and storing the ASDI data in the database; and a multi-touch screen user interface that presents flight route information in multiple layers to provide a three-dimensional interface to the four-dimensional geospatial air traffic data, the flight route information including the query results, wherein, in response to user inputs received by the apparatus, a subset of the four-dimensional geospatial air traffic data is presented in the multi-touch screen user interface as initial query results, wherein subsequent user inputs are received as touch gestures in the multi-touch screen user interface to refocus the query results through a physical interaction of the user and the multi-touch user interface the causes the apparatus to query the database to update the initial query results displayed in the multi-touch screen user interface in near real-time, and wherein the multiple layers of the multi-touch screen user interface include a geographical map layer, spatiotemporal data layer, a querying and aggregation layer, a user interface widget layer and a rendering layer. 14. The apparatus of claim 13 , wherein the user inputs simultaneously alter plural dimensions of the four-dimensional geospatial air traffic data. 15. The apparatus of claim 14 , wherein the user inputs specify one of defining a subset of flights for analysis, specifying an airline, specifying a departure airport, specifying an arrival airport, specifying a date interval, specifying a time interval, specifying a latitude, and specifying a longitude. 16. The apparatus of claim 13 , wherein the multi-touch screen user interface includes at least one of graphical indications of the number of aircraft departures and arrivals at various time intervals, departure and arrival controls that adjust a range of departure and arrival times and dates, a time-based control that adjusts the time range of displayed aviation data, and a flight table that shows a flight information for each display flight.