A method for monitoring aircraft operation status comprising the steps of transmitting aircraft operation data from an on-board monitoring system of an aircraft while in a cruising phase of flight in at least one of a continuous transmission and a batched transmission while in flight and receiving aircraft operation data in the form of at least one of the continuous transmission and the batched transmission from the aircraft in flight, the form of the aircraft operation data being responsive to at least one of phase of flight, network traffic across a communication device associated with the aircraft, or network traffic across a network associated with the aircraft. The method further comprises identifying the aircraft associated with the aircraft operation data and recording the aircraft operation data to an aircraft database.

A travel path setting apparatus includes an information acquiring unit, a memory, a predictable scenario creating unit, and a path searching unit. The information acquiring unit acquires surrounding information on a surrounding situation of a movable body. The memory stores a probability model related to the surrounding situation of the movable body. The predictable scenario creating unit creates, on a basis of the surrounding information and the probability model, a plurality of predictable scenarios for each of a plurality of predetermined times in future. The predictable scenarios are each the surrounding situation of the movable body that is predicted for corresponding one of the predetermined times. The path searching unit searches for and sets the travel path on a basis of the predictable scenarios created by the predictable scenario creating unit.

Systems, methods, and devices are provided for providing flight response to flight-restricted regions. The location of an unmanned aerial vehicle (UAV) may be compared with a location of a flight-restricted region. If needed a flight-response measure may be taken by the UAV to prevent the UAV from flying in a no-fly zone. Different flight-response measures may be taken based on the distance between the UAV and the flight-restricted region and the rules of a jurisdiction within which the UAV falls.

A system and method for providing the information contained in instrument procedure charts in a more intuitive and easier to comprehend manner is provided. The provided enhanced instrument procedure visualization system displays a dynamic three-dimensional view of a selected instrument procedure, and incorporates time-relevant information from weather and traffic sources. The provided enhanced instrument procedure visualization system further allows a pilot to scroll forward and backward in time to review and study the complete instrument procedure.

A flight management system device and method. The method includes determining a ground track for a flight leg based on a spherical earth model. The flight leg includes two waypoints that are specified with an ellipsoidal earth model. The method includes determining that a parameter associated with the ground track exceeds a threshold. The method includes inserting an anchor point between the two waypoints on a geodesic to effect a course change to the ground track between the two waypoints such that an intended flight path is within specified thresholds. The geodesic is associated with the ellipsoidal earth model. The method includes modifying the ground track to include two spherical earth model path segments spanning from the first waypoint through the anchor point to the second waypoint. The two spherical earth model path segments are computed based on the spherical earth model. The method includes storing modified ground track data.

A method implemented by a computer for managing meteorological data for managing the flight of an aircraft, comprises the steps of receiving a cartographic background and selections of meteorological products; receiving meteorological data associated with the flight plan of the aircraft, according to a first space scale; determining one or more types of graphic symbols; as a function of a second space scale, determining one or more graphic declinations of the types of graphic symbols, the graphic superimpositions predefined; and displaying the cartographic background and the determined graphic declinations. Developments describe the management of the visual density of the display, the taking into account of the flight context and/or of the physiology of the pilot, the deactivation on request of the adjustments of the display. Software and system aspects (e.g. electronic flight bag, gaze monitoring) are also described.

A method implemented by a computer for managing meteorological data for the management of the flight of an aircraft, comprises the steps of receiving a cartographic background and meteorological data associated with the flight plan, selecting one or more meteorological events; displaying graphic representations associated with the meteorological events selected on a strip representing the flight plan; based on the updating of the meteorological data, refreshing the display of the meteorological data. Developments notably describe the re-refreshing of the display corresponding to a revision of the flight plan, taking into account of the severity of the meteorological events, the emission of alerts and/or selectable notifications, the distinction between meteorology of regulatory type and of non-regulatory type. Software and system aspects are described (e.g. electronic flight bag EFB).

Method, system and computer program product for providing a predicted vehicle track and for providing alerts when two predicted vehicle tracks are closer than a threshold amount. A vehicle intent prediction model is generated based on past instance of tracks for a vehicle operation, known vehicle intent data for the past instances, and contextual factors, such as weather, airline operator, air vehicle type or configuration, day of the week, etc. for the past instances. The vehicle intent prediction model can be generated using one or more machine learning algorithms. A future vehicle trajectory for a current vehicle operation can be output by the vehicle intent prediction model using the current track and existing contextual factors for the current vehicle operation. In the event that two vehicles following their respective predicted vehicle future trajectories would be closer than a threshold distance, an alert can be provided.

Systems, methods and computer-storage media are provided for use of navigational aids. Three-dimensional graphical representations of flight plans, flight paths, waypoints, etc., may be displayed to improve situational awareness. Additionally, dynamic monitoring of airports, waypoints, traffic, etc., may be performed so that real-time updates are available to users. The real-time updates will not only include updated location information and any relevant navigational markers (e.g., updated waypoints, new traffic, etc.) but will also include detailed information related to the navigational markers such as a distance from the marker, an airspeed of the marker (if applicable), and the like.

Systems and methods for UAV safety are provided. An authentication system may be used to confirm UAV and/or user identity and provide secured communications between users and UAVs. The UAVs may operate in accordance with a set of flight regulations. The set of flight regulations may be associated with a geo-fencing device in the vicinity of the UAV.