Methods and systems for automatically controlling aircraft takeoff rolls
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G05D-001/08
G05D-003/00
B64C-013/00
출원번호
US-0080111
(2005-03-14)
등록번호
US-7364121
(2008-04-29)
발명자
/ 주소
Firuz,Guner
Jaeger,Michael H.
Agate,Robert M.
Bresley,William M.
출원인 / 주소
The Boeing Company
대리인 / 주소
Perkins Coie LLP
인용정보
피인용 횟수 :
6인용 특허 :
8
초록▼
Methods and systems for automatically controlling aircraft takeoff rolls. A method in accordance with one embodiment of the invention includes receiving an indication of a target takeoff roll path for an aircraft, and automatically controlling a direction of an aircraft, while the aircraft is on a t
Methods and systems for automatically controlling aircraft takeoff rolls. A method in accordance with one embodiment of the invention includes receiving an indication of a target takeoff roll path for an aircraft, and automatically controlling a direction of an aircraft, while the aircraft is on a takeoff roll, to at least approximately follow the target takeoff roll path. The method can further include providing an input to a rudder of the aircraft and, upon receiving an indication of an engine failure, can transfer the input from the rudder to a rudder trim element. In still further embodiments, the method can include commanding a ground track angle when an airspeed of the aircraft reaches a threshold value, and maintaining the ground track angle as the airspeed of the aircraft exceeds the threshold value.
대표청구항▼
We claim: 1. A method for controlling an aircraft, comprising: receiving an indication of a target takeoff roll path for an aircraft; automatically controlling a direction of the aircraft while the aircraft is on a takeoff roll to at least approximately follow the target takeoff roll path; and auto
We claim: 1. A method for controlling an aircraft, comprising: receiving an indication of a target takeoff roll path for an aircraft; automatically controlling a direction of the aircraft while the aircraft is on a takeoff roll to at least approximately follow the target takeoff roll path; and automatically controlling the direction of the aircraft as the aircraft leaves the ground, wherein automatically controlling the direction of the aircraft includes: determining a lateral deviation distance from the target path; determining a lateral acceleration; filtering the lateral deviation with the lateral acceleration to produce a filtered lateral deviation; filtering the lateral acceleration with the lateral deviation to produce a filtered lateral deviation rate; determining a commanded lateral position and commanded lateral position rate based on the complementary filtered lateral deviation and complementary filtered lateral deviation rate; based on the commanded lateral position, the filtered lateral deviation, the commanded lateral position rate and the filtered lateral deviation rate, determining a first commanded angular position; based on the first commanded angular position, a sensed yaw rate, and a commanded lateral acceleration, determining a second commanded angular position; and directing a rudder and landing gear of the aircraft to move in a manner that directs the aircraft to the second commanded angular position. 2. The method of claim 1 wherein automatically controlling a direction of the aircraft includes automatically providing an input to a rudder of the aircraft, and wherein the method further comprises: receiving an indication of an engine failure; and in response to receiving the indication of engine failure, transferring the input from the rudder to a rudder trim element. 3. The method of claim 1, further comprising: commanding a ground track angle when an airspeed of the aircraft reaches a threshold value; and maintaining the ground track angle as the aircraft airspeed exceeds the threshold value. 4. The method of claim 1, further comprising filtering information corresponding to the target takeoff roll path for the aircraft to reduce noise. 5. A system for controlling an aircraft, comprising: a receiver configured to receive an indication of a target takeoff roll path for an aircraft; and a controller coupled to the receiver to receive the indication of the target roll path, the controller further being coupled to a steering system of the aircraft to automatically control a direction of the aircraft while the aircraft is on a takeoff roll to at least approximately follow the target takeoff roll path, automatically control the direction of the aircraft as the aircraft leaves the ground, and gradually reduce the automatic control of the aircraft once the aircraft exceeds a threshold condition. 6. The system of claim 5 wherein the controller includes a computer-readable medium having instructions to control the direction of the aircraft. 7. The system of claim 5 wherein the controller automatically provides an input to a rudder of the aircraft, and wherein: the receiver is configured to receive an indication of an engine failure; and the controller is configured to maintain the input to the rudder or transfer the input to a rudder trim element in response to the indication of engine failure. 8. The system of claim 5 wherein the controller is configured to gradually reduce the automatic control of the aircraft once the aircraft exceeds a threshold pitch angle. 9. The system of claim 5 wherein the receiver is configured to receive an indication from at least one of a ground-based signal emitter and a satellite-based signal emitter. 10. The system of claim 5 wherein the controller is configured to: command a ground track angle when an airspeed of the aircraft reaches a threshold value; and maintain the ground track angle as the airspeed of the aircraft exceeds the threshold value. 11. The system of claim 5 wherein the receiver is configured to receive an indication of a speed of the aircraft and wherein the controller is configured to automatically control a direction of the aircraft only when the speed of the aircraft exceeds a threshold value. 12. The system of claim 5 wherein the controller is configured to: filter a lateral deviation value with a lateral acceleration value to produce a filtered lateral deviation; filter the lateral acceleration value with the lateral deviation value to produce a filtered lateral deviation rate; based on a commanded lateral position, the filtered lateral deviation, a commanded lateral position rate and the filtered lateral deviation rate, determine a first commanded angular position; based on the first commanded angular position, a sensed yaw rate, and a commanded lateral acceleration, determine a second commanded angular position; and direct a rudder and landing gear of the aircraft to move in a manner that directs the aircraft to the second commanded angular position. 13. The system of claim 5 wherein the controller is configured to: automatically control a lateral position of the aircraft when the aircraft travels below a threshold airspeed; automatically control a track angle of the aircraft when the aircraft travels above the threshold airspeed at less than a threshold pitch angle; and gradually reduce automatic control of the track angle when the aircraft travels above the threshold pitch angle. 14. A system for controlling an aircraft, comprising: receiver means for receiving an indication of a target takeoff roll path for an aircraft, wherein the receiver means is configured to receive an indication of an engine failure; and control means for controlling a direction of the aircraft, the control means being coupled to the receiver means to receive the indication of the target roll path, the control means further being coupled to a steering system of the aircraft to automatically control the direction of the aircraft while the aircraft is on a takeoff roll to at least approximately follow the target takeoff roll path, and automatically control the direction of the aircraft as the aircraft leaves the ground, wherein the control means automatically provides an input to a rudder of the aircraft and is configured to maintain the input to the rudder, wherein maintaining the input to the rudder includes transfering the input to a rudder trim element in response to the indication of engine failure. 15. The system of claim 14 wherein the control means is configured to: command a ground track angle when an airspeed of the aircraft reaches a threshold value; and maintain the ground track angle as the airspeed of the aircraft exceeds the threshold value. 16. The system of claim 14 wherein the control means is configured to: filter a lateral deviation value with a lateral acceleration value to produce a filtered lateral deviation; filter the lateral acceleration value with the lateral deviation value to produce a filtered lateral deviation rate; based on a commanded lateral position, the filtered lateral deviation, a commanded lateral position rate and the filtered lateral deviation rate, determine a first commanded angular position; based on the first commanded angular position, a sensed yaw rate, and a commanded lateral acceleration, determine a second commanded angular position; and direct a rudder and landing gear of the aircraft to move in a manner that directs the aircraft to the second commanded angular position. 17. A method for controlling an aircraft, comprising: receiving an indication of a target takeoff roll path for an aircraft; automatically controlling a direction of the aircraft while the aircraft is on a takeoff roll to at least approximately follow the target takeoff roll path, wherein automatically controlling a direction of the aircraft includes automatically providing an input to a rudder of the aircraft; receiving an indication of an engine failure; and in response to receiving the indication of engine failure, transferring the input from the rudder to a rudder trim element. 18. The method of claim 17, further comprising gradually reducing the automatic control of the aircraft once the aircraft exceeds a threshold condition. 19. The method of claim 17, further comprising: automatically controlling a lateral position of the aircraft when the aircraft travels below a threshold airspeed; automatically controlling a track angle of the aircraft when the aircraft travels above the threshold airspeed at less than a threshold pitch angle; and gradually reducing automatic control of the track angle when the aircraft travels above the threshold pitch angle. 20. The method of claim 17 wherein receiving an indication of a target takeoff roll path for an aircraft includes receiving an indication from at least one of a ground-based signal emitter and a satellite-based signal emitter. 21. The method of claim 17, further comprising automatically controlling a lateral direction of the aircraft when an airspeed of the aircraft exceeds a threshold value. 22. The method of claim 17, further comprising receiving an indication of a speed of the aircraft and automatically controlling a direction of the aircraft only when the speed of the aircraft exceeds a threshold value. 23. A method for controlling an aircraft, comprising: receiving an indication of a target takeoff roll path for an aircraft; automatically controlling a direction of the aircraft while the aircraft is on a takeoff roll to at least approximately follow the target takeoff roll path; and gradually reducing the automatic control of the aircraft once the aircraft exceeds a threshold condition. 24. The method of claim 23, further comprising automatically directing a rudder control input device to move in a manner consistent with the direction of the aircraft. 25. The method of claim 23 wherein controlling a direction of the aircraft includes directing motion of an aircraft nosewheel and rudder, and wherein the method further comprises automatically directing a rudder control input device to move in a manner consistent with the movement of the aircraft nosewheel and rudder. 26. The method of claim 23, further comprising receiving an input signal from an operator authorizing automatic control of the aircraft direction. 27. A method for controlling an aircraft, comprising: receiving an indication of a target takeoff roll path for an aircraft; and automatically controlling a direction of the aircraft while the aircraft is on a takeoff roll to at least approximately follow the target takeoff roll path including: automatically controlling a lateral position of the aircraft when the aircraft travels below a threshold airspeed; automatically controlling a track angle of the aircraft when the aircraft travels above the threshold airspeed at less than a threshold pitch angle; and gradually reducing automatic control of the track angle when the aircraft travels above the threshold pitch angle.
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이 특허에 인용된 특허 (8)
Smith ; Gerald R., Aircraft ground monitoring system.
Middleton David B. (Yorktown VA) Srivatsan Raghavachari (Newport News VA) Person ; Jr. Lee H. (Yorktown VA), Airplane takeoff and landing performance monitoring system.
Pilley Harold R. (R.F.D. #1 ; Box 204 Deering NH 03244), Airport control/management system using GNSS-based methods and equipment for the control of surface and airborne traffic.
Kiebles, Steven Louis; Lax, David Michael; Darias, Otto Y; Darnell, Mark Lawrence; Hwang, Sean Sanghyun; Holbert, Christopher Daniel; Mathews, Jr., Harry Kirk; Adibhatla, Sridhar; Bult, Jeffrey Russell; Swager, Thomas Charles, Controlling aircraft using thrust differential trim.
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