Anti-collision airport system including a motorized mobile device to be moved close to an aircraft. The system includes a database to record structural characteristics of categories of aircraft and structural characteristics of the motorized mobile device. The controller is configured to identify a category corresponding to the aircraft and a positioning of the motorized mobile device with respect to the aircraft, search and retrieve, from the database, structural characteristics associated with the category corresponding to the aircraft and structural characteristics of the motorized device, calculate a trajectory for the movement of the motorized mobile device on the basis of the structural characteristics of the aircraft and of the motorized mobile device and of the positioning of the motorized mobile device with respect to the aircraft, and control the motorized mobile device according to the calculated trajectory.

An electronic system and method controls automatic or semi-automatic docking of a vehicle with a given docking area, applicable, in particular, to the docking of an airport vehicle, such as a baggage belt loader, a catering vehicle, etc., to the fuselage of an aircraft, for example to the door of such an aircraft. The given docking area comprises at least one target. The system includes first determination device configured to determine the position of the docking area by determining the type of target from a set of given types and its position, second determination device configured to determine a guide path for guiding the vehicle towards the given docking area depending on the position of the docking area, and third determination device configured to determine the type of docking destination, the second determination device being capable of determining one or more exclusion areas depending on the type of docking destination, by comparing the type of docking destination with types of docking destination, stored in a database in association with exclusion areas, such that the guide path for guiding the vehicle towards the given docking area does not pass into any of the exclusion areas.

An aircraft boarding vehicle to transport passengers between airport gate area and to a front door or a rear door of an airplane positioned on a tarmac of an airport without impeding ground transportation and plane traffic having a passenger platform housing, a chassis or frame to support the passenger platform housing, one or more independent drive hubs affixed to the chassis, the hubs configured to drive in either direction and turn or rotate to enable navigation of the vehicle about the tarmac, a lift system to raise and lower said passenger platform housing to match the height of the airport gate, the door of the airplane, the traverse over wing tips, and a power supply to power the one or more independent drive hubs and the lift system and thus, to speed up the turnaround process during deplaning and boarding procedures.

An aircraft boarding vehicle to transport passengers between airport gate area and to a front door or a rear door of an airplane positioned on a tarmac of an airport without impeding ground transportation and plane traffic having a passenger platform housing, a chassis or frame to support the passenger platform housing, one or more independent drive hubs affixed to the chassis, the hubs configured to drive in either direction and turn or rotate to enable navigation of the vehicle about the tarmac, a lift system to raise and lower said passenger platform housing to match the height of the airport gate, the door of the airplane, the traverse over wing tips, and a power supply to power the one or more independent drive hubs and the lift system and thus, to speed up the turnaround process during deplaning and boarding procedures.

An exchange station has openings for drones, a passenger check-in/check-out bay for processing passengers, a drone connect/release bay, having apparatus adapted to manage passenger pods mounted on smart chassis, and a computerized control system in wireless communication with control circuitry in the drones and smart chassis, guiding smart chassis with mounted passenger pods and drones, to make the exchange of pods from the smart chassis to drones. A passenger entering the passenger check-in bay is loaded into a pod mounted on a smart chassis, the pod with passenger is transported to the drone-connect/release bay, and the pod is there joined to a bare drone and disconnected from the smart chassis, the drone leaving with the passenger pod to a destination, and the smart chassis traveling away from the drone connect-release bay.

An exchange station has openings for drones, a passenger check-in/check-out bay for processing passengers, a drone connect/release bay, having apparatus adapted to manage passenger pods mounted on smart chassis, and a computerized control system in wireless communication with control circuitry in the drones and smart chassis, guiding smart chassis with mounted passenger pods and drones, to make the exchange of pods from the smart chassis to drones. A passenger entering the passenger check-in bay is loaded into a pod mounted on a smart chassis, the pod with passenger is transported to the drone-connect/release bay, and the pod is there joined to a bare drone and disconnected from the smart chassis, the drone leaving with the passenger pod to a destination, and the smart chassis traveling away from the drone connect-release bay.

A method and apparatus for automatically aligning and connecting a passenger boarding bridge (PBB) with the passenger door of an aircraft or other vessel. A sensory suite module includes cameras and sensors to scan the apron for obstacles and identify an aircraft based on external features. The sensory suite module also includes one or more high-precision active laser line profilers to detect the vertical and lower edges of an aircraft door. A controller module provides precise control and movement of the distal end of the PBB and guides the distal end of the PBB to the passenger door. The system can be activated by a remote triggering panel module.

A method and apparatus for automatically aligning and connecting a passenger boarding bridge (PBB) with the passenger door of an aircraft or other vessel. A sensory suite module includes cameras and sensors to scan the apron for obstacles and identify an aircraft based on external features. The sensory suite module also includes one or more high-precision active laser line profilers to detect the vertical and lower edges of an aircraft door. A controller module provides precise control and movement of the distal end of the PBB and guides the distal end of the PBB to the passenger door. The system can be activated by a remote triggering panel module.

An aerial vehicle has a passenger cabin for receiving at least one passenger, a load-bearing structure beneath the cabin, and a propulsion system including a number of propulsion units, which propel the aerial vehicle for powered flight and vertical take-off and landing (VTOL). The propulsion units are preferably carried by support arms attached to the load-bearing structure and extending upwards therefrom so as to support the propulsion units at a level above the cabin. The aerial vehicle is preferably reconfigurable to a compact configuration after landing, with at least some of the propulsion units overlapping the cabin and/or each other, while still allowing passenger transfer in and out of the vehicle, thereby facilitating efficient use of space for implementing a vertiport.

An aerial vehicle has a passenger cabin for receiving at least one passenger, a load-bearing structure beneath the cabin, and a propulsion system including a number of propulsion units, which propel the aerial vehicle for powered flight and vertical take-off and landing (VTOL). The propulsion units are preferably carried by support arms attached to the load-bearing structure and extending upwards therefrom so as to support the propulsion units at a level above the cabin. The aerial vehicle is preferably reconfigurable to a compact configuration after landing, with at least some of the propulsion units overlapping the cabin and/or each other, while still allowing passenger transfer in and out of the vehicle, thereby facilitating efficient use of space for implementing a vertiport.