System and method for stabilizing longitudinal acceleration of a rotorcraft
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64C-027/00
B64C-027/04
B64C-013/50
B64C-027/06
B64C-027/82
G05D-001/02
G05D-001/00
G05D-001/08
출원번호
US-0426560
(2017-02-07)
등록번호
US-10040542
(2018-08-07)
발명자
/ 주소
Gillett, Luke
Kim, Sung K.
출원인 / 주소
BELL HELICOPTER TEXTRON INC.
대리인 / 주소
Slater Matsil, LLP
인용정보
피인용 횟수 :
0인용 특허 :
2
초록▼
In accordance with an embodiment of the present invention, a method of operating a rotorcraft includes operating the rotorcraft in a speed control mode, where a speed of the rotorcraft is proportional to a pilot control command; detecting a high longitudinal acceleration condition; upon detection of
In accordance with an embodiment of the present invention, a method of operating a rotorcraft includes operating the rotorcraft in a speed control mode, where a speed of the rotorcraft is proportional to a pilot control command; detecting a high longitudinal acceleration condition; upon detection of the high longitudinal acceleration condition, temporarily disabling the speed control mode and stabilizing the rotorcraft while the speed control mode is disabled; and reestablishing the speed control mode when a measured longitudinal acceleration of the rotorcraft falls below a first threshold.
대표청구항▼
1. A method of operating a rotorcraft, the method comprising: operating the rotorcraft in a speed control mode, wherein a speed of the rotorcraft is proportional to a pilot control command and operating the rotorcraft in the speed control mode comprises receiving a target longitudinal speed,receivin
1. A method of operating a rotorcraft, the method comprising: operating the rotorcraft in a speed control mode, wherein a speed of the rotorcraft is proportional to a pilot control command and operating the rotorcraft in the speed control mode comprises receiving a target longitudinal speed,receiving a measured longitudinal speed,determining a pitch actuator command based on the target longitudinal speed and the measured longitudinal speed, andtransmitting the pitch actuator command to an actuator of the rotorcraft;detecting a high longitudinal acceleration condition;upon detection of the high longitudinal acceleration condition, temporarily disabling the speed control mode and stabilizing the rotorcraft while the speed control mode is disabled, wherein stabilizing the rotorcraft while the speed control mode is disabled comprises receiving a measured longitudinal acceleration from an inertial sensor, anddetermining the pitch actuator command based on the measured longitudinal acceleration; andreestablishing the speed control mode when an absolute value of a measured longitudinal acceleration of the rotorcraft falls below a first threshold. 2. The method of claim 1, wherein receiving the measured longitudinal speed comprises receiving the measured longitudinal speed from an air data sensor. 3. The method of claim 1, wherein: receiving a target longitudinal speed comprises receiving the target longitudinal speed from a pilot control; anddetecting the high longitudinal acceleration condition comprises receiving an indication that the pilot control is in detent. 4. The method of claim 1, wherein detecting the high longitudinal acceleration condition comprises determining that the absolute value of the measured longitudinal acceleration is greater than a second threshold. 5. The method of claim 4, wherein the second threshold is 7 ft/sec2. 6. The method of claim 1, wherein determining the pitch actuator command based on the measured longitudinal acceleration comprises integrating the measured longitudinal acceleration. 7. The method of claim 1, wherein stabilizing the rotorcraft comprises disabling a proportional path and a differentiator path of a speed loop controller. 8. The method of claim 1, wherein the first threshold is 2 ft/sec2. 9. A flight control system for a rotorcraft comprising a processor and a non-transitory computer readable storage medium with an executable program stored thereon, the executable program including instructions to: operate the rotorcraft in a first mode comprising receiving a target longitudinal speed,receiving a measured longitudinal speed, anddetermining a pitch actuator command based the target longitudinal speed and the measured longitudinal speed using a first control algorithm; anddetecting a high longitudinal acceleration condition;transition from operating the rotorcraft in the first mode to operating the rotorcraft in a second mode upon detecting the high longitudinal acceleration condition, wherein operating the rotorcraft in the second mode comprises: receiving a measured longitudinal acceleration from an inertial sensor, anddetermining the pitch actuator command based on the measured longitudinal acceleration using a second control algorithm; andtransition from operating the rotorcraft in the second mode to operating the rotorcraft in the first mode when an absolute value of the measured longitudinal acceleration falls below a first threshold. 10. The flight control system of claim 9, wherein: the first control algorithm comprises determining an error between the target longitudinal speed and the measured longitudinal speed and applying a proportional-integral-derivative controller to the determined error; andthe second control algorithm comprises integrating the measured longitudinal acceleration. 11. The flight control system of claim 9, wherein: receiving the target longitudinal speed comprises receiving the target longitudinal speed from a pilot control; anddetecting the high longitudinal acceleration condition comprises receiving an indication that the pilot control is in detent. 12. The flight control system of claim 9, wherein detecting the high longitudinal acceleration condition comprises determining that the absolute value of the measured longitudinal acceleration is greater than a second threshold. 13. The flight control system of claim 12, wherein: the first threshold is 2 ft/sec2; andthe second threshold is 7 ft/sec2. 14. A rotorcraft comprising: a body;a power train coupled to the body and comprising a power source and a drive shaft coupled to the power source;a rotor system coupled to the power train and comprising a plurality of rotor blades;a flight control system operable to change at least one operating condition of the rotor system;a pilot control assembly configured to receive commands from a pilot, wherein the flight control system is a fly-by-wire flight control system in electrical communication with the pilot control assembly;an air data sensor;an inertial sensor; anda flight control computer in electrical communication between the flight control system and the pilot control assembly, the flight control computer configured to:operate the rotorcraft in a speed control mode by receiving a target longitudinal speed from the pilot control assembly,receiving a measured longitudinal speed from the air data sensor, anddetermining a pitch actuator command based on the target longitudinal speed and the measured longitudinal speed, wherein a speed of the rotorcraft is proportional to a pilot control command received from the pilot control assembly;detect a high longitudinal acceleration condition;upon detection of the high longitudinal acceleration condition, temporarily disable the speed control mode and stabilizing the rotorcraft while the speed control mode is disabled by receiving a measured longitudinal acceleration from the inertial sensor, anddetermining the pitch actuator command based on the measured longitudinal acceleration; andreestablish the speed control mode when an absolute value of a longitudinal acceleration measured by the inertial sensor of the rotorcraft falls below a first threshold. 15. The rotorcraft of claim 14, wherein the flight control computer is further configured to detect the high longitudinal acceleration condition when receiving an indication from the pilot control assembly that a pilot control is in detent. 16. The rotorcraft of claim 14, wherein the flight control computer is further configured to detect the high longitudinal acceleration condition when the absolute value of the measured longitudinal acceleration is greater than a second threshold. 17. The rotorcraft of claim 14, wherein the flight control computer is further configured to determine the pitch actuator command based on the measured longitudinal acceleration by integrating the measured longitudinal acceleration. 18. The rotorcraft of claim 14, wherein the flight control computer is further configured to transmit the pitch actuator command to a swashplate of the rotor system. 19. The rotorcraft of claim 14, wherein the flight control computer is further configured to stabilize the rotorcraft by disabling a proportional path and a differentiator path of a speed loop controller.
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이 특허에 인용된 특허 (2)
Murphy Richard D. (Monroe CT) Cotton Lou S. (Monroe CT), Automatic approach to hover system.
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