Apparatus for airfield management
First Claim
1. A system for supervising the landing of a plurality of aircraft at a given airfield by a human supervisor in a control station, each of said aircraft being capable of landing without control by any human personnel on board, said system comprising, in combination:
- (a) a control station comprising;
(1) at least one input device, responsive to said supervisor, for producing at least one air traffic control signal for controlling the order of landing of said plurality of aircraft; and
(2) a transmitting device, coupled to said at least one input device, for electronic communication with each of a plurality of aircraft; and
(b) aircraft control apparatus disposed on each of a plurality of aircraft, each said apparatus including;
(1) a receiving device for electronic communication with said transmitting device of said control station;
(2) at least one logic device, coupled to said receiving device, for controlling said aircraft by controlling at least one of the movable aerodynamic control surfaces of the aircraft, throttles, landing gear, and brakes, said logic device being programmed to pilot said aircraft to the vicinity of said airfield and thereafter to automatically land said aircraft at said airfield;
wherein (1) said at least one control signal is selected by means of said input device by said supervisor, based on said supervisor'"'"'s observations of said plurality of aircraft;
(2) said control signal is transmitted from said control station to the respective logic device on at least one of said plurality of aircraft; and
(3) in response thereto, said logic device controls the respective aircraft,thereby to control its flight in the vicinity of an airfield.
2 Assignments
0 Petitions
Accused Products
Abstract
A system for supervising the landing of an aircraft by a supervisor in a control station, each of the aircraft being incapable of being controlled by any personnel onboard, the system comprises a control station and onboard aircraft control apparatus. The station includes an input device, responsive to the supervisor, for producing a control signal for controlling the landing of the aircraft; and a transmitting device, coupled to the input device, for communication with the aircraft. The aircraft apparatus includes a receiving device for communication with the station; a logic device, coupled to the receiving device, for controlling the aircraft which is programmed to pilot the aircraft to the vicinity of the airfield. The control signal is selected by the supervisor, based on the supervisor'"'"'s observations of the aircraft and is transmitted to the logic device; in response thereto, the logic device controls the aircraft.
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Citations
89 Claims
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1. A system for supervising the landing of a plurality of aircraft at a given airfield by a human supervisor in a control station, each of said aircraft being capable of landing without control by any human personnel on board, said system comprising, in combination:
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(a) a control station comprising; (1) at least one input device, responsive to said supervisor, for producing at least one air traffic control signal for controlling the order of landing of said plurality of aircraft; and (2) a transmitting device, coupled to said at least one input device, for electronic communication with each of a plurality of aircraft; and (b) aircraft control apparatus disposed on each of a plurality of aircraft, each said apparatus including; (1) a receiving device for electronic communication with said transmitting device of said control station; (2) at least one logic device, coupled to said receiving device, for controlling said aircraft by controlling at least one of the movable aerodynamic control surfaces of the aircraft, throttles, landing gear, and brakes, said logic device being programmed to pilot said aircraft to the vicinity of said airfield and thereafter to automatically land said aircraft at said airfield; wherein (1) said at least one control signal is selected by means of said input device by said supervisor, based on said supervisor'"'"'s observations of said plurality of aircraft;
(2) said control signal is transmitted from said control station to the respective logic device on at least one of said plurality of aircraft; and
(3) in response thereto, said logic device controls the respective aircraft,thereby to control its flight in the vicinity of an airfield. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26)
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27. A system for supervising the landing of a plurality of aircraft at a given airfield by a control device in a control station, each of said aircraft being capable of landing without control by any human personnel on board, said system comprising, in combination:
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(a) a control station comprising; (1) a first transmitting/receiving (T/R) device for electronic communication with each of a plurality of aircraft; and (2) at least one first logic device, coupled to said first T/R device, for analysis of received aircraft information, for the computation of prioritizing information for aircraft landing, and for the generation of landing commands based on said prioritizing information; and (b) aircraft control apparatus disposed on each of a plurality of aircraft, each said apparatus including; (1) a second T/R device for electronic communication with said first T/R device of said control station; (2) at least one second logic device, coupled to the second T/R device, for controlling the landing of said aircraft by controlling at least one of the movable aerodynamic surfaces of the aircraft, throttles, landing gear and brakes, said logic device being programmed to pilot said aircraft to the vicinity of said airfield and thereafter to automatically land said aircraft at said airfield; and (3) at least one telemetry device, coupled to the second T/R device, for obtaining information about said aircraft required for landing prioritization; wherein (1) said telemetry information is transmitted from a plurality of aircraft needing to land;
(2) information is received at said control station and processed by said at least one first logic device;
(3) said at least one first logic device generates a landing sequence for said plurality of aircraft based on said information;
(4) based on said landing sequence, said at least one first logic device generates landing commands for each of said aircraft; and
(5) said landing commands are transmitted from said first T/R device to said second T/R device on at least one of said aircraft;
(6) in response thereto, said respective at least one second logic device controls the respective aircraft,thereby to control the landing sequence in the vicinity of an airfield. - View Dependent Claims (28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52)
wherein said telemetry output may be used for at least one of;
aircraft identification and the calculation of remaining fuel safety margin for said aircraft.
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32. The system defined in claim 27, wherein at least one of said landing commands is a landing inhibit command, whereby said command causes said second logic device to postpone the landing of said aircraft.
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33. The system defined in claim 32, where said postponement causes said aircraft to move in a pre-defined orbit in the vicinity of the airfield.
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34. The system defined in claim 32, where said postponement causes said aircraft to move in one of a plurality of pre-defined orbits in the vicinity of the airfield, said orbit selected by said first logic device.
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35. The system defined in claim 34, wherein said first logic device may send a command which changes the aircraft motion from one predefined orbit to another.
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36. The system defined in claim 27, wherein said first logic device may send a command which causes said aircraft to approach the airfield along one of a plurality of pre-defined approach vectors.
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37. The system defined in claim 27, wherein at least one of said landing commands causes said aircraft to land on one of a plurality of runways.
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38. The system defined in claim 27, wherein at least one of said landing commands causes said aircraft to land at a particular time.
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39. The system defined in claim 27, wherein at least one of said landing commands is a landing confirmation command, whereby said command causes said second logic device to initiate the landing of said aircraft.
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40. The system defined in claim 27, further comprising at least one landing parameter logic device aboard the aircraft, for storing landing parameter information.
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41. The system defined in claim 40, wherein at least one of said landing commands is a landing inhibit command which causes said second logic device to postpone the landing of said aircraft.
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42. The system defined in claim 40, wherein said landing parameter information includes at least one of:
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(1) airport identity; (2) airport location; (3) airport approach vector; (4) airport runway assignment; and (5) airport holding orbit.
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43. The system defined in claim 40, wherein at least one of said landing commands causes said aircraft to change its approach to the airfield from a pre-assigned approach vector to one of a plurality of possible alternate approach vectors.
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44. The system defined in claim 40, wherein at least one of said landing commands causes said aircraft to change its runway choice from a pre-assigned runway to one of a plurality of possible alternate runways.
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45. The system defined in claim 40, wherein at least one of said landing commands causes said aircraft to change its landing time to another landing time.
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46. The system defined in claim 40, wherein at least one of said landing commands represents a landing confirmation command, whereby said command causes said second logic device to initiate the landing of said aircraft.
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47. The system defined in claim 27, wherein at least one of said landing commands causes said aircraft to traverse a particular taxiway on the ground.
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48. The system defined in claim 27, wherein the landing of at least one of said aircraft is controllable by at least one alternate pilot, said alternate pilot selected from the group consisting of (i) at least one autopilot;
- (ii) at least one flight management computer, and (iii) a human pilot remote from said aircraft.
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49. The system defined in claim 48, further comprising a remote pilot transmitting device, whereby said remote pilot may communicate with said second logic device for control of said aircraft.
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50. The system defined in claim 48, wherein each of said at least one autopilot and said at least one flight management computer is coupled to a respective one of said at least one second logic device.
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51. The system defined in claim 48, wherein said second logic device is operative to receive signals from said at least one first logic device to override the control signals of said alternate pilot.
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52. The system defined in claim 27, wherein said control station (a) is onboard one of said aircraft.
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53. A system for supervising the movement of a plurality of aircraft in the vicinity of an airfield by a control device in a control station, each of said aircraft capable of being controlled by an onboard pilot, said system comprising, in combination:
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(a) a control station comprising; (1) a first transmitting/receiving (T/R) device for electronic communication with each of a plurality of aircraft; and (2) at least one first logic device, coupled to said first T/R device, for analysis of received aircraft information and for the computation of traffic control instructions for orderly aircraft movement in the vicinity of said airfield; and (b) aircraft control apparatus disposed on each of a plurality of aircraft, each said apparatus including; (1) a second T/R device for electronic communication with said first T/R device of said control station; (2) a display device coupled to said second T/R device, aboard each aircraft for displaying said traffic control instructions; and (3) at least one telemetry device, coupled to the second T/R device, for providing aircraft information about said aircraft required for aircraft supervision in the vicinity of said airfield; wherein (1) said aircraft information is transmitted from each of a plurality of aircraft in the vicinity of said airfield;
(2) aircraft information is received at said control station and processed by said at least one first logic device;
(3) said at least one first logic device generates traffic control instructions for each of said plurality of aircraft based on said information;
(4) said traffic control instructions are transmitted from said first T/R device to said respective second T/R devices on said aircraft; and
(5) said traffic control instructions are displayed on said aircraft;thereby to allow for orderly motion of aircraft in the vicinity of an airfield without a human air traffic controller. - View Dependent Claims (54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79)
wherein said telemetry output is transmitted to said first logic device for at least one of;
aircraft identification, and the calculation of remaining fuel safety margin for said aircraft.
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79. The system defined in claim 53, wherein said control station further comprises:
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(3) a display device coupled to at least one of said first logic device for displaying said traffic control instructions; and (4) a supervisory input device, coupled to at least one of said first logic device; and wherein a supervising person (1) observes said traffic control instructions generated by said at least one first logic device, and (2) may override the decision of said at least one first logic device by inputting overriding instructions to said supervisory input device.
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80. A system for supervising the landing of a plurality of aircraft at an airfield by a human supervisor in a control station, each of said aircraft able to be controlled without any human personnel on board, said system comprising, in combination:
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(a) a control station comprising; (1) at least one input device, responsive to said supervisor, for producing at least one air traffic control signal for controlling the order of landing of said plurality of aircraft; and (2) a transmitting device, coupled to said at least one input device, for electronic communication with each of a plurality of aircraft; and (b) aircraft control apparatus disposed on each of a plurality of aircraft, each said apparatus including; (1) a receiving device for electronic communication with said transmitting device of said control station; (2) at least one logic device, coupled to said receiving device, for controlling said aircraft by controlling at least one of the movable aerodynamic control surfaces of the aircraft, throttles, landing gear, and brakes, said logic device being operable to pilot said aircraft to the vicinity of said airfield, said logic device also being operable to cause said aircraft to fly along one of a plurality of paths in the vicinity of said airfield in order to delay said landing; wherein (1) said at least one control signal is a landing command, selected by means of said input device by said supervisor, based on said supervisor'"'"'s observations of said plurality of aircraft; (2) said landing command is transmitted from said control station to the respective logic device on at least one of said plurality of aircraft; and (3) in response thereto, said respective logic device causes said one aircraft to fly along one of said plurality of paths and causes said one aircraft to leave said path to land; thereby to control the timing of landing said aircraft; and thereby to control the sequence of aircraft landings among said plurality of aircraft. - View Dependent Claims (81, 82, 83, 84)
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85. A system for supervising the landing of a plurality of aircraft at an airfield by a control device in a control station, each of said aircraft able to be controlled without any human personnel on board, said system comprising, in combination:
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(a) a control station comprising; (1) a first transmitting/receiving (T/R) device for electronic communication with each of a plurality of aircraft; and (2) at least one first logic device, coupled to said first T/R device, for (i) analysis of received aircraft information, for the computation of prioritizing information for determining the sequence of landing of said plurality of aircraft; and (ii) producing at least one control signal for each of said plurality of aircraft; and (b) aircraft control apparatus disposed on each of a plurality of aircraft, each said apparatus including; (1) a second T/R device for electronic communication with said first T/R device of said control station; (2) at least one second logic device, coupled to said second T/R device, for controlling said aircraft by controlling at least one of the movable aerodynamic control surfaces of the aircraft, throttles, landing gear, and brakes, said second logic device being operable to pilot said aircraft to the vicinity of said airfield, said second logic device also being operable to cause said aircraft to fly in along of a plurality of paths in the vicinity of said airfield in order to delay said landing; and (3) at least one telemetry device, coupled to said second T/R device, for obtaining said aircraft information; wherein (1) said at least one control signal is a landing command, selected by said first logic device, based on said received aircraft information; (2) said landing command is transmitted from said control station to the respective second logic device on at least one of said plurality of aircraft; and (3) in response thereto, said respective second logic device causes said one aircraft to fly along one of said plurality of paths and causes said one aircraft to leave said path to land; thereby to control the timing of landing said aircraft; and thereby to control the sequence of aircraft landings among said plurality of aircraft. - View Dependent Claims (86, 87, 88, 89)
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Specification