Abstract: A wheel testing system and method are provided that simulates realistically conditions likely to be encountered during operation of vehicle wheels, especially powered drive wheels and wheel-connected structures. The system may include an integral support frame designed to adjustably mount wheels or wheel-connected structures to be tested, a load motor drivingly connected to an inertial load, and an adjustable mounting sled configured to adjustably mount a test wheel or a wheel-connected structure with an hydraulic system actuatable to adjust the location of the test wheel relative to the inertial load to vary or fix the load on the test wheel desired. Speed of the test wheel can be varied or fixed by controlling the speed of the load motor. System measurement and data collection electronics measure a range of selected wheel parameters and gather data for transmission to a processor or non-transitory storage medium for processing and evaluation.

Abstract: A method for accelerated power push back of an aircraft equipped with a pilot-controlled engines-off taxi system that drives the aircraft without reliance on the aircraft's main engines or tugs is provided. An aircraft is quickly and efficiently moved out of a gate where it is positioned in a nose-in orientation. The pilot controls the taxi system to drive the aircraft in reverse along a perpendicular path away from the terminal to a location where there is sufficient space for the aircraft to stop and turn, and the aircraft is turned and driven in a forward direction to a takeoff runway. Pilot reliance on ground personnel guidance during push back maneuvers is minimized by providing a monitoring system designed to monitor gate and ramp areas around the aircraft in any visibility or environmental conditions and provide feedback to the pilot.

Abstract: A system and method is provided for improving efficiency of aircraft gate services and reducing time spent by an aircraft parked parallel to an airport terminal wherein aircraft utilities and gate services provided during turnaround are supported by an arrangement of flexibly movable, service and utility-carrying extendable passenger boarding bridges that enable passenger and baggage exchange concurrently with connection of utilities and provision of gate services to the aircraft. Aircraft are maneuvered by a pilot into and out of a parallel parking location in a forward direction by an engines-off electric taxi system that does not rely on the use of aircraft main engines to drive the aircraft, enabling loading bridge, utility, and service connections to be made to multiple aircraft doors as soon as the aircraft arrives at a parking space and then quickly disconnected upon departure.

Abstract: A method is provided for automatically or manually. optimizing independent ground travel operation in an aircraft equipped with one or more self-propelled nose or main wheels powered by a driver means, wherein selected operating parameters indicative of optimized ground travel are monitored by sensors or detectors to provide data and information relating to the selected parameters during operation of the ground travel system. Selected operating parameters can include, for example, speed, direction of travel, torque, component thermal data aircraft location data, and operator inputs, commands, and feedback, as well as other operational data or information. Data is collected, recorded, and analyzed to enable changes to be made to the ground travel system components in real time automatically by intelligent software or manually by a system operator or at a later time to ensure optimum operation of the system.

Abstract: The invention disclosed is a self-propelled aircraft undercarriage for driving an aircraft on the ground, comprising: an axle; a strut supporting said axle; at least one wheel rotatably mounted on said axle; and drive means for driving said at least one wheel; characterized in that said drive means is disk shaped and is external to said wheel. In one embodiment of the invention, said drive means is mounted on said axle between said strut and said wheel. In a second embodiment, said drive means is mounted on said axle, on the side of said wheel furthest from said strut.

Abstract: A training system and method for operating aircraft equipped with non-engine drive means during independent ground travel is provided. The system and method of the present invention is designed specifically to train pilots, ground personnel, and air traffic control to move an aircraft safely and efficiently on the ground during taxi and pushback using the aircraft's non-engine drive means to propel the aircraft independently during ground travel. Simulations and procedures for training pilots and ramp personnel in the conduct of pushback operations and forward taxi with an aircraft equipped with non-engine drive means are also provided.

Abstract: A method for reducing airline fleet carbon dioxide and greenhouse gas emissions and fees associated with the emission of greenhouse gases is provided. The method is implemented by equipping at least a substantial portion or all of the aircraft in an airline's fleet with onboard wheel drive means capable of translating torque through aircraft wheels and controllable to move the aircraft on the ground independently without complete reliance on the aircraft's engines or the use of external tow vehicles. One or more drive wheels, each of which may be powered by onboard electric, hydraulic, or other wheel drive means, are controllable to move each aircraft efficiently during ground travel without increasing carbon emissions.

Abstract: A method for reducing maintenance and increasing the effective life of an aircraft's landing gear, thereby increasing the aircraft's flight and landing cycles is provided. The present method eliminates adverse stresses and forces produced on landing gear components by the operation of a tow vehicle to tow the aircraft on the ground by providing an onboard wheel driver that is powered to drive at least one of the aircraft's nose wheels or main wheels to move the aircraft on the ground. Movement of the aircraft on the ground is controlled by the operation of the driver-powered drive wheel, eliminating the possibility of damage to landing gear components associated with tug operation.

Abstract: Improved low light vision and thermal imaging devices are provided. The devices of the present invention employ thermionic or thermotunneling cooling, with or without Avto Metals™, to ensure efficient operation under conditions of low illumination or the complete absence of illumination to detect emitted or reflected infrared and visible light radiation, significantly reducing thermal noise to produce superior image resolution and sensitivity within a small, lightweight footprint that will have a wide range of military, law enforcement, civilian, and other applications.

Abstract: A method for improving the efficiency of airport deicing operations is provided. The present method equips aircraft using an airport with onboard non-engine drive means powered to drive one or more landing gear wheels to move the aircraft on the ground autonomously during taxi without reliance on the aircraft's engines. Decreasing or substantially eliminating the operation of aircraft engines during taxi substantially eliminates the likelihood that ice, snow, slush, and other runway contaminants moved by the jet blast produced by aircraft engine operation during taxi will be sprayed from the runway onto surfaces of taxiing aircraft, both prior to deicing and after deicing. Deicing operations can be conducted more quickly, and repeated deicing operations on a single aircraft can be avoided.

Abstract: A method is provided for determining a relational speed and position of two moving components, preferably an aircraft landing gear drive wheel, a component of the drive wheel, a drive means driving the landing gear drive wheel, or a component of the drive means, using fiber optic technology. Speed and positional information relating to the relative positions of a part of a landing gear drive wheel and a part of a drive means driving the drive wheel can be obtained to ensure their proper engagement or interaction. A single optical fiber preferably provides information relating to drive wheel speed, drive means speed, drive wheel position, and drive means position, therefore enabling efficient autonomous ground travel of an aircraft equipped with this system. The present method can also be employed to monitor aircraft wheel speed in aircraft that use thrust from the engines to move an aircraft on the ground.

Abstract: A system and method for setting, controlling, or maintaining a selected taxi speed and route for one or more aircraft equipped with an onboard non-engine powered drive means powering one or more aircraft wheels to move the aircraft during taxi is provided. Taxi speed and/or route can be set, maintained, or controlled by the aircraft pilot or ground traffic control in conjunction with taxi speed and travel of other aircraft and ground vehicles. A pilot activates a speed control to set and control taxi speed. The aircraft will automatically travel on the ground at that speed without input from the pilot until it is necessary to change the speed manually or automatically. Airport ground traffic control can generate taxi profiles for all non-engine driven aircraft to automatically control, subject to pilot capability to override, the taxi of multiple aircraft at an airport in conjunction with ground vehicle movement.

Abstract: A method is provided for increasing the number of takeoff and landing slots and increasing gate capacity at airports with slot controls, including airports that are constrained from operation by curfews that limit the hours when aircraft can operate. The present method is intended to be used in connection with an aircraft that is equipped with onboard wheel drive means capable of translating torque through aircraft wheels and controllable to move the aircraft independently on the ground quietly and efficiently to a runway for takeoff without reliance on the aircraft's engines or the use of external tow vehicles.

Abstract: The invention disclosed is a self-propelled aircraft undercarriage for driving an aircraft on the ground, comprising: an axle; a strut supporting said axle; at least one wheel rotatably mounted on said axle; and drive means for driving said at least one wheel; characterized in that said drive means is disk shaped and is external to said wheel. In one embodiment of the invention, said drive means is mounted on said axle between said strut and said wheel. In a second embodiment, said drive means is mounted on said axle, on the side of said wheel furthest from said strut.

Abstract: A drive system with harmonic drive designed to meet the high power and torque requirements required to drive an aircraft independently on the ground is provided. The drive system includes an electric motor driven by a harmonic drive assembly that may be configured to be integral with the motor. This drive system with harmonic drive can be effectively installed in an existing aircraft nose wheel or main wheel without changes to other components.

Abstract: A method is provided for optimizing requirements for brake size, complexity, and heat dissipation capability in an aircraft, wherein the aircraft is powered during ground travel by an onboard wheel drive assembly, including controllable drive means, mounted on at least one aircraft wheel, and ground travel is controlled by the pilot to move the aircraft on the ground without relying on the operation of the aircraft engines, while substantially minimizing brake use between landing and takeoff. Brakes can be optimally sized and configured to meet landing and taxi requirements, resulting in reduced brake size and complexity and increased effective heat dissipation. Substantially minimizing brake use during taxi produces improved brake cooling, substantially eliminating delays caused by slow brake heat shedding and enables rapid aircraft turnaround between landing and takeoff.

Abstract: A method for enhancing pilot and cockpit crew efficiency and increasing aircraft safety during aircraft ground travel between landing and takeoff is provided. The present method is most effective in enhancing pilot efficiency and aircraft safety in an aircraft equipped with at least one powered, self-propelled drive wheel that drives the aircraft on the ground independently of the aircraft main engines or external tow vehicles that is controlled by the pilot and cockpit crew to maneuver the aircraft during ground travel.

Abstract: A method for extending the useful and economic life of an aircraft and improving aircraft efficiency is provided. This method produces significant fuel savings on the ground and in flight as well as cost-effective and efficient operation of and reduced maintenance requirements for older aircraft. The increased economic viability of the continued use of older aircraft is achieved by equipping an aircraft with at least one onboard drive wheel assembly controllably powered to drive the aircraft during ground travel independently of aircraft engines or external tow vehicles. The substantial elimination of damage to an aircraft's airframe, brakes, landing gear, and engine components resulting from tow vehicle attachment, brake application during ground travel with operating aircraft engines, or by FOD produces cleaner, more efficient engine operation during flight. Significant and substantial potential cost savings realized by the present method makes the continued use of older aircraft a viable option.

Abstract: A method for reducing the amount of fuel required to be carried in flight by an aircraft is provided that substantially reduces the taxi margin amount of fuel required by an aircraft, thereby reducing the aircraft's weight and producing significant increases in fuel use efficiency and savings in fuel costs. The substantially reduced taxi margin amount of fuel is produced by equipping an aircraft with at least one drive wheel powered by at least one onboard drive means that cooperatively drive the aircraft on the ground during taxi between takeoff and landing without reliance on the operation of the aircraft main engines.

Abstract: A novel use of doped carbonaceous material is disclosed, integral to the operation of Vacuum Diode Heat Pumps and Vacuum Diode Thermionic Generators. In the preferred embodiment, the use of nitrogen-doped diamond enhances the operation of Vacuum Diode Heat Pumps and Vacuum Diode Thermionic Generators.