IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0716163
(2012-12-16)
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등록번호 |
US-8752789
(2014-06-17)
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발명자
/ 주소 |
- Tran, Chuong B.
- Najmabadi, Kioumars
- Coleman, Edward E.
- Grubb, David W.
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
27 |
초록
▼
A method for controlling control surfaces. A position limit is identified for movement of a control surface based on a load limit set for the control surface and a number of vehicle current operation parameters to form an identified position limit. Responsive to receiving a command to move the contr
A method for controlling control surfaces. A position limit is identified for movement of a control surface based on a load limit set for the control surface and a number of vehicle current operation parameters to form an identified position limit. Responsive to receiving a command to move the control surface on a vehicle to a new position, the control surface is commanded to move to a position within the identified position limit.
대표청구항
▼
1. A vehicle comprising: a control surface;an actuator system connected to the control surface;a sensor system capable of generating a number of vehicle current operation parameters during operation of the vehicle; anda computer connected to the sensor system and the actuator system, the computer co
1. A vehicle comprising: a control surface;an actuator system connected to the control surface;a sensor system capable of generating a number of vehicle current operation parameters during operation of the vehicle; anda computer connected to the sensor system and the actuator system, the computer configured to execute a load alleviation process configured to: receive a number of vehicle current operation parameters while the vehicle is in operation; identify a position limit for movement of the control surface based on: a traditional limit, a load limit set for the control surface due to moments and shears, and the number of vehicle current operation parameters, to form an identified position limit; and command the actuator system to move the control surface within the identified position limit in response to receiving a command to move the control surface to a new position. 2. The vehicle of claim 1, wherein the vehicle is selected from one of an aircraft, a missile, a submarine, a car, and a spacecraft. 3. An aircraft comprising: a body;a first wing for the body;a second wing for the body;a horizontal tail at one end of the body;an elevator system located on the horizontal tail;an actuator system located in the aircraft and connected to the elevator system;a sensor system capable of generating a number of vehicle current operation parameters during operation of the aircraft; anda flight control computer connected to the sensor system and the actuator system, the flight control computer configured to execute a load alleviation process configured to: receive the number of vehicle current operation parameters while the aircraft is in operation; identify a position limit for movement of the elevator system based on: a load limit due to shears and moments set for the elevator system, and the number of vehicle current operation parameters, to form an identified position limit; and command the actuator system to move the elevator system to a position within the identified position limit in response to receiving a command to move the elevator system on the horizontal tail to a new position. 4. A computer program product for controlling control surfaces, the computer program product comprising: a computer recordable storage medium;program code, stored on the computer recordable storage medium, configured to identify a position limit for movement of a control surface based on: a load limit set for the control surface due to moments and shears, and a number of vehicle current operation parameters, to form an identified position limit; andprogram code, stored on the computer recordable storage medium, configured to command, responsive to receiving a command to move the control surface on a vehicle to a new position, the control surface to move to a position within the identified position limit. 5. The computer program product of claim 4, wherein the program code, stored on the computer recordable storage medium, for identifying the position limit for the movement of the control surface based on the load limit set for the control surface and the number of vehicle current operation parameters to form the identified position limit comprises: program code, stored on the computer recordable storage medium, for identifying the position limit for the control surface using a function, wherein the function has the load limit as a constant and the number of vehicle current operation parameters as inputs to provide a limit for the position for the control surface to form the identified position limit. 6. The computer program product of claim 4, wherein the program code, stored on the computer recordable storage medium, for identifying the position limit for the movement of the control surface based on the load limit set for the control surface and the number of vehicle current operation parameters to form the identified position limit comprises: program code, stored on the computer recordable storage medium, for computing a current position limit to the control surface based on the load limit set for the control surface and the number of vehicle current operation parameters to form an identified current position limit; andprogram code, stored on the computer recordable storage medium, for multiplying the current position limit with a speed based limit for the control surface to form the identified position limit. 7. The computer program product of claim 6, wherein the current position limit to the control surface is selected from one of a maximum position limit and a minimum position limit. 8. The vehicle of claim 1, wherein the command to move the control surface is also based on a pitch axis control law command. 9. The vehicle of claim 1, wherein the current operation parameters comprise at least one of: a true airspeed, a normal acceleration, a pitch acceleration, a lateral acceleration, a body pitch rate, a body yaw rate, a body roll rate, a slide slip angle, an angle of attack, a speed of sound, a dynamic pressure, and a control surface position. 10. The aircraft of claim 3, wherein the identified position limit for movement of the elevator system is also based on a traditional trailing edge elevator limit. 11. The aircraft of claim 3, wherein the identified position limit for movement of the elevator system is also based on a pitch axis control law command. 12. The aircraft of claim 3, wherein the current operation parameters comprise at least one of: a true airspeed, a normal acceleration, a pitch acceleration, a lateral acceleration, a body pitch rate, a body yaw rate, a body roll rate, a slide slip angle, an angle of attack, a speed of sound, a dynamic pressure, and a control surface position. 13. The aircraft of claim 3, wherein the identified position limit is based upon a function describing a horizontal tail load. 14. The aircraft of claim 13, wherein the function is based upon at least one of: an aircraft body angle of attack, a rate of body pitch, a true airspeed, a normal acceleration, a pitch acceleration, an speed of sound value for the aircraft, a dynamic pressure value for the aircraft, an elevator position, and an aircraft stabilizer position. 15. The computer program product of claim 4, wherein the control surface is selected from one of: an elevator, a flap, a slat, an aileron, a rudder, an air brake, a trim device, and a flaperon. 16. The computer program product of claim 4, wherein the identified position limit is based upon a function describing a horizontal tail load. 17. The computer program product of claim 16, wherein the function is based upon at least one of: an aircraft body angle of attack, a rate of body pitch, a true airspeed, a normal acceleration, a pitch acceleration, an speed of sound value for the aircraft, a dynamic pressure value for the aircraft, an elevator position, and an aircraft stabilizer position.
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