An aircraft undercarriage comprising a top portion (2) secured to the aircraft and a steerable bottom portion (3) carrying wheels and suitable for being steered by a steering control system (4) fitted to the undercarriage or else by an external towing device, the undercarriage being fitted with visual warning means (9) for indicating an angular overstroke. The visual warning means comprising at least one visual indicator (14) mounted to move between a retracted position that is invisible and an extended position that is visible. An aircraft provided with an undercarriage.

In an embodiment, an airport electric vehicle charging system includes a current transducer electrically coupled with a power source; a solid state converter electrically coupleable with an aircraft at or near an airport gate and configured to provide and maintain power to the aircraft; and a controller. The system further includes a first feedback loop between the controller and the current transducer; a second feedback loop between the controller and the solid state converter; and a battery charger electrically coupled with the power source and configured to charge one or more electric vehicles. The first feedback loop provides a first feedback signal generated by the current transducer to the controller. The second feedback loop provides a second feedback signal generated by the solid state converter to the controller. The battery charger is configured to consume power from the power source in accordance with the first and second feedback signals.

A remote towing interface is used to couple a towbar to an aircraft having a fuselage and a steerable landing gear. The remote towing interface includes a towbar coupler mounted to the aircraft and configured to releasably couple a towbar to the aircraft. The remote towing interface further includes a sensor and a controller. The sensor is configured to sense a position of the towbar relative to the aircraft when the towbar is coupled to the towbar coupler, and the controller controls the steerable landing gear according to the sensed position of the towbar relative to the aircraft.

An aircraft ground support unit, which is mobile, for supplying a service to an aircraft on the ground according to a specific servicing program is provided that includes a GPS to identify an instantaneous position of the ground support unit, a receiver suitable for identifying an aircraft by receiving information emitted by a transponder of said aircraft including one or more of: an instantaneous GPS coordinates of an aircraft position, an identity of the aircraft, a type of aircraft, a company of the aircraft, or aircraft status data, and a microprocessor configured for calculating a distance, d, of the aircraft from the ground support unit, selecting a predefined specific servicing program stored in a database corresponding to the type and company of the thus identified aircraft, controlling the ground support unit to implement the thus selected specific servicing program, and logging aircraft and ground unit data for airlines optimization.

Launch and/or recovery for unmanned aircraft and/or other payloads, including via parachute-assist, and associated systems and methods are disclosed. A representative method for lofting a payload includes directing a lifting device upward, releasing a parachute from the lifting device, with the parachute carrying a pulley and having a flexible line passing around the pulley. The flexible line is connected between a tension device (e.g., a winch) and the payload. The method further includes activating the tension device to reel in the flexible line and accelerate the payload upwardly.

An intelligent system for controlling driving of an aircraft tow tractor by means of combination of voice and vision includes an audio transmission line, a voice recognition system, a visual recognition system, and a vehicle-mounted motion controller. According to the intelligent system, visual recognition is performed based on a belly-mounted anti-collision light on an aircraft, a taxi light, and the visual recognition system on an aircraft tow tractor, and the aircraft tow tractor is intelligently controlled by means of combination of voice recognition and the visual recognition; furthermore, the aircraft tow tractor is intelligently controlled by voices of flight crew via the audio transmission line, safety in a towing process is guaranteed by the visual recognition, and each step in the towing process is performed by means of a cross validation based on the voice recognition and the visual recognition.

A machine with a cleaning system and a tugging system. The cleaning system can include a floor cleaning feature configured to dispense a cleaning solution onto a floor surface, agitate the cleaning solution, and remove the cleaning solution from the floor surface. The cleaning system can include an onboard cleaning solution tank, an onboard recovery tank, and an onboard vacuum. The tugging system can include a hitch coupled to a front end of the machine and can be configured to tow an airplane.

The embodiments of the disclosed invention provide apparatuses, systems, and methods for preventing ground collisions or physical contact between a vehicle and nearby objects. In various embodiments the vehicle can comprise an aircraft and the nearby object can comprise a hangar. Embodiments of the invention can provide a proximity warning triggered by changes in certain electrical characteristics of the vehicle body relative to its surroundings, said changes responsive to the separation distance between the vehicle and nearby objects, persons or structures.

A secure terminal for the aerial transport of passengers whose technical and operational infrastructure makes it possible to ensure the physical security of the building, of the aircraft, of the goods, of the passengers and of the flight, technical and administrative personnel and the confidentiality of the passengers and of their goods, noteworthy in that it comprises at least one building having a globally V-shaped horizontal section and comprising two branches extending from a mid-zone, constituting parking hangars for aircraft and determining between them an uncovered central zone.

An aircraft undercarriage comprising a top portion (2) secured to the aircraft and a steerable bottom portion (3) carrying wheels and suitable for being steered by a steering control system (4) fitted to the undercarriage or else by an external towing device, the undercarriage being fitted with visual warning means (9) for indicating an angular overstroke. The visual warning means comprising at least one visual indicator (14) mounted to move between a retracted position that is invisible and an extended position that is visible.

An aircraft provided with an undercarriage.