Method for determining a state of credibility of measurements of an incidence sensor of an aircraft and corresponding system
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64F-005/60
G01P-013/02
G01P-021/02
출원번호
US-0388775
(2013-03-26)
등록번호
US-9933451
(2018-04-03)
우선권정보
FR-12 00927 (2012-03-28)
국제출원번호
PCT/EP2013/056432
(2013-03-26)
국제공개번호
WO2013/144157
(2013-10-03)
발명자
/ 주소
Dupont De Dinechin, Sebastien
출원인 / 주소
DASSAULT AVIATION
대리인 / 주소
Davidson, Davidson & Kappel, LLC
인용정보
피인용 횟수 :
0인용 특허 :
3
초록▼
A method for determining a state of credibility of measurements of an angle-of-attack sensor of an aircraft is provided. This method includes at least one coherence test between angle-of-attack measurements from said angle-of-attack sensor, and the measurements of a flight characteristic of the airc
A method for determining a state of credibility of measurements of an angle-of-attack sensor of an aircraft is provided. This method includes at least one coherence test between angle-of-attack measurements from said angle-of-attack sensor, and the measurements of a flight characteristic of the aircraft, distinct from the angle-of-attack. The coherence test includes determining an angle-of-attack value from said angle-of-attack sensor, determining said flight characteristic of the aircraft, determining a value of at least one indicator of the coherence of the angle-of-attack value with the value of said flight characteristic, and activating a low state of credibility, in which the measurements of said angle-of-attack sensor are deemed unreliable, or an intermediate state of credibility, in which the measurements from said angle-of-attack sensor are deemed coherent with said flight characteristic, based on the value of said coherence indicator.
대표청구항▼
1. A method for providing a crew of an aircraft with speed information for operating the aircraft during a flight of the aircraft, the aircraft comprising at least one angle-of-attack sensor performing measurements during the flight of the aircraft and static pressure and total pressure sensors, the
1. A method for providing a crew of an aircraft with speed information for operating the aircraft during a flight of the aircraft, the aircraft comprising at least one angle-of-attack sensor performing measurements during the flight of the aircraft and static pressure and total pressure sensors, the method comprising: determining, by a computer in the aircraft, at least one angle-of-attack value of the aircraft from at least one measurement from the angle-of-attack sensor;analyzing, by the computer, the accuracy of the at least one angle-of-attack value, to determine whether the at least one angle-of-attack sensor is malfunctioning by testing a coherence between angle-of-attack measurements of the aircraft, coming from the angle-of-attack sensor, and measurements of at least one flight characteristic of the aircraft, distinct from the angle-of-attack and determined independently of any measurements from the static pressure and total pressure sensors, the testing comprising: determining, by the computer, at least one value of the flight characteristic of the aircraft;determining, by the computer, a value of at least one indicator of the coherence of the angle-of-attack value with the value of the flight characteristic;analyzing, by the computer, based on the value of the indicator, if the measurements of the angle-of-attack sensor are unreliable or coherent with the measurements of the flight characteristic, andif the measurements of the angle-of-attack sensor are deemed unreliable: determining the speed information independent of the measurements from the angle-of-attack sensor,and displaying, by a display in the aircraft, the speed information of the aircraft determined independent of the measurements from the angle-of-attack sensor to the crew of the aircraft, andif the measurements of the angle-of-attack sensor are deemed coherent with the measurements of the flight characteristic: determining the speed information dependent on the measurements from the angle-of-attack sensor,and directing the display of, by the display in the aircraft, the speed information of the aircraft determined dependent on the measurements from the angle-of-attack sensor to the crew of the aircraft. 2. The method as recited in claim 1 wherein the testing a coherence includes a dynamic coherence test, in which the flight characteristic is a load factor of the aircraft, the measurements of the angle-of-attack sensor being deemed unreliable, or deemed coherent with the measurements of the load factor as a function of the value of the coherence indicator. 3. The method as recited in claim 2 wherein the coherence indicator measures a dynamic coherence between the angle-of-attack and load factor values over first and second time intervals. 4. The method as recited in claim 2 wherein the coherence indicator is a statistic correlation coefficient between the angle-of-attack values and the load factor values over the first and second time intervals, determined in the form: Corrϕ(nZ,α)=Covϕ(nZ,α)ɛnZɛα, where Covφ(nZ,α) designates a covariance between angle-of-attack values α and load factor values nZ, designates a standard deviation of the angle-of-attack values α over the first time interval and designates a standard deviation of the load factor values nZ over the second time interval. 5. The method as recited in claim 2 further comprising comparing an absolute value of the coherence indicator with a predetermined correlation threshold, the measurements of the angle-of-attack sensor being deemed unreliable if the coherence indicator is below the correlation threshold, and the measurements of the angle-of-attack sensor being deemed coherent with the measurements of the load factor if the coherence indicator is above or equal to the correlation threshold. 6. The method as recited in claim 2 wherein the dynamic coherence test includes comprises a prior determination step for determining a relevance of the dynamic coherence test, comprising determining a dispersion value of the load factor values over the second time interval, the dynamic coherence test being deemed relevant if the dispersion value is greater than or equal to a predetermined dispersion threshold and irrelevant if the dispersion value is below the dispersion threshold. 7. The method as recited in claim 6 wherein results of the dynamic coherence test are not taken into account when the dynamic coherence test is deemed irrelevant. 8. The method as recited in claim 1 wherein the testing a coherence includes a static coherence test, in which the flight characteristic is a pitch angle of the aircraft, the coherence indicator measuring a static coherence between the value of the angle-of-attack and a pitch angle value, the measurements of the angle-of-attack sensor being deemed unreliable, or deemed coherent with the measurements of the pitch angle as a function of the value of the coherence indicator. 9. The method as recited in claim 8 wherein the determination of a coherence indicator between the angle-of-attack value and the pitch angle value comprises determining a difference between the pitch angle value and the angle-of-attack value, the angle-of-attack and pitch angle values being deemed coherent if the absolute value of the difference is below a predetermined difference threshold and not coherent if the absolute value of the difference is above the predetermined difference threshold. 10. The method as recited in claim 8 wherein the static coherence test comprises a prior determination step for determining a relevance of the static coherence test, comprising determining a flight path angle of the aircraft and a bank angle of the aircraft and comparing the flight path angle to a predetermined threshold, and comparing the bank angle to a predetermined bank angle threshold, the static coherence test being deemed relevant if the flight path angle and the bank angle are below or equal to the flight path angle and bank angle thresholds, respectively, and irrelevant if the flight path angle is above the flight path angle threshold and/or the bank angle is below the bank angle threshold. 11. The method as recited in claim 10 wherein results of the static coherence test are not taken into account when the static coherence test is deemed irrelevant. 12. The method as recited in claim 8 wherein the testing a coherence includes a dynamic coherence test, in which the flight characteristic is a load factor of the aircraft, the measurements of the angle-of-attack sensor being deemed unreliable, or deemed coherent with the measurements of the load factor as a function of the value of the coherence indicator of the dynamic coherence test, the measurements of the angle-of-attack sensor being deemed reliable, when the measurements of the angle-of-attack sensor are deemed coherent with the measurements of the load factor and the measurements of the pitch angle in a time interval below a predetermined threshold, the method comprising, when the measurements of the angle-of-attack sensor are deemed reliable, determining speed information dependent on the measurements from the angle-of-attack sensor and providing a crew of the aircraft with the information. 13. The method as recited in claim 1, wherein the speed information independent of the measurements from the angle-of-attack sensor comprise a true air speed of the aircraft, determined from a speed of the aircraft relative to a ground and an estimate of a wind speed. 14. The method as recited in claim 1, wherein the speed information independent of the measurements from the angle-of-attack sensor comprise a Mach number determined from: a true air speed of the aircraft, determined from a speed of the aircraft relative to the ground and an estimate of a wind speed, andan estimate of a surrounding static temperature. 15. The method as recited in claim 14, wherein the estimate of the surrounding static temperature is determined from an estimated value of an altitude of the aircraft. 16. The method as recited in claim 1, wherein the speed information independent of the measurements from the angle-of-attack sensor comprise a speed equivalent, determined from: a Mach number, determined from: a true air speed of the aircraft, determined from a speed of the aircraft relative to a ground and an estimate of a wind speed, andan estimate of a surrounding static temperature; andan estimated value of a static pressure surrounding the aircraft, determined independently of any measurements from the static pressure and total pressure sensors from an estimated value of an altitude of the aircraft. 17. A system for providing a crew of an aircraft with speed information for operating the aircraft during a flight of the aircraft, the aircraft comprising at least one angle-of-attack sensor preforming measurements during a flight of the aircraft and static pressure and total pressure sensors, comprising: a display in the aircraft configured for displaying the speed information of the aircraft to the crew;a computer configured for determining at least one angle-of-attack value of the aircraft from at least one measurement from the angle-of-attack sensor,the computer being configured for analyzing the accuracy of the at least one angle-of-attack value to determine whether the at least one angle-of-attack sensor is malfunctioning by carrying out at least one coherence test between angle-of-attack measurements of the aircraft, coming from the angle-of-attack sensor, and measurements of at least one flight characteristic of the aircraft, separate from the angle-of-attack and determined independently of any measurements from the static pressure and total pressure sensors,the computer being configured to determine at least one value of the flight characteristic of the aircraft,the computer being configured to determine a value of at least one indicator of the coherence of the angle-of-attack value with the value of the flight characteristic,the computer being configured to analyze, based on the value of the indicator, if the measurements of the angle-of-attack sensor are unreliable or coherent with the measurements of the flight characteristic, andif the measurements of the angle-of-attack sensor are deemed unreliable: determining the speed information independent of the measurements from the angle-of-attack sensor, and directing the display of, by the display in the aircraft, the speed information of the aircraft determined independent of the measurements from the angle-of-attack sensor to the crew of the aircraft, andif the measurements of the angle-of-attack sensor are deemed coherent with the measurements of the flight characteristic: determining the speed information dependent on the measurements from the angle-of-attack sensor,and directing the display of, by the display in the aircraft, the speed information of the aircraft determined dependent on the measurements from the angle-of-attack sensor to the crew of the aircraft. 18. A method for providing a crew of an aircraft with speed information for operating the aircraft during a flight of the aircraft, the aircraft comprising at least one angle-of-attack sensor performing measurements during the flight of the aircraft, the method comprising: determining, by a computer in the aircraft, at least one angle-of-attack value of the aircraft from at least one measurement from the angle-of-attack sensor;analyzing, by the computer, the accuracy of the at least one angle-of-attack value, to determine whether the at least one angle-of-attack sensor is malfunctioning by testing a coherence between angle-of-attack measurements of the aircraft, coming from the angle-of-attack sensor, and measurements of at least one flight characteristic of the aircraft, the testing including a dynamic coherence test in which the flight characteristic is a load factor of the aircraft, the dynamic coherence test comprising: determining, by the computer, at least one value of the load factor of the aircraft;determining, by the computer, a value of at least one indicator of the coherence of the angle-of-attack value with the value of the load factor, the coherence indicator measuring a dynamic coherence between the angle-of-attack values and load factor values over first and second time intervals;analyzing, by the computer, based on the value of the indicator, if the measurements of the angle-of-attack sensor are unreliable or coherent with the measurements of the load factor, andif the measurements of the angle-of-attack sensor are deemed unreliable: determining the speed information independent of the measurements from the angle-of-attack sensor,and displaying, by a display in the aircraft, the speed information of the aircraft determined independent of the measurements from the angle-of-attack sensor to the crew of the aircraft, andif the measurements of the angle-of-attack sensor are deemed coherent with the measurements of the load factor: determining the speed information dependent on the measurements from the angle-of-attack sensor,and directing the display of, by the display in the aircraft, the speed information of the aircraft determined dependent on the measurements from the angle-of-attack sensor to the crew of the aircraft. 19. The method as recited in claim 18 wherein the coherence indicator is a statistic correlation coefficient between the angle-of-attack values and the load factor values over the first and second time intervals, determined in the form: Corrϕ(nZ,α)=Covϕ(nZ,α)ɛnZɛα, where Covφ(nZ,α) designates a covariance between angle-of-attack values α and load factor values nZ, ∈α designates a standard deviation of the angle-of-attack values α over the first time interval and EnZ designates a standard deviation of the load factor values nZ over the second time interval. 20. The method as recited in claim 18 further comprising comparing an absolute value of the coherence indicator with a predetermined correlation threshold, the measurements of the angle-of-attack sensor being deemed unreliable if the coherence indicator is below the correlation threshold, and the measurements of the angle-of-attack sensor being deemed coherent with the measurements of the load factor if the coherence indicator is above or equal to the correlation threshold. 21. The method as recited in claim 18 wherein the dynamic coherence test includes a prior determination of a relevance of the dynamic coherence test, comprising determining a dispersion value of the load factor values over the second time interval, the dynamic coherence test being deemed relevant if the dispersion value is greater than or equal to a predetermined dispersion threshold and irrelevant if the dispersion value is below the dispersion threshold. 22. The method as recited in claim 21, wherein results of the dynamic coherence test are not taken into account when the dynamic coherence test is deemed irrelevant. 23. A method for providing a crew of an aircraft with speed information for operating the aircraft during a flight of the aircraft, the aircraft comprising at least one angle-of-attack sensor performing measurements during the flight of the aircraft, the method comprising: determining, by a computer in the aircraft, at least one angle-of-attack value of the aircraft from at least one measurement from the angle-of-attack sensor;analyzing, by the computer, the accuracy of the at least one angle-of-attack value to determine whether the at least one angle-of-attack sensor is malfunctioning by testing a coherence between angle-of-attack measurements of the aircraft, coming from the angle-of-attack sensor, and measurements of at least one flight characteristic of the aircraft, the testing including a static coherence test in which the flight characteristic is a pitch angle of the aircraft, the static coherence test comprising: determining, by the computer, at least one value of the pitch angle of the aircraft;determining, by the computer, a value of at least one indicator of the coherence of the angle-of-attack value with the value of the pitch angle, the coherence indicator measuring a static coherence between the value of the angle-of-attack and a pitch angle value;analyzing, by the computer, based on the value of the indicator, if the measurements of the angle-of-attack sensor are unreliable or coherent with the measurements of the pitch angle, andif the measurements of the angle-of-attack sensor are deemed unreliable: determining the speed information independent of the measurements from the angle-of-attack sensor,and displaying, by a display in the aircraft, the speed information of the aircraft determined independent of the measurements from the angle-of-attack sensor to the crew of the aircraft, andif the measurements of the angle-of-attack sensor are deemed coherent with the measurements of the pitch angle: determining the speed information dependent on the measurements from the angle-of-attack sensor,and directing the display of, by the display in the aircraft, the speed information of the aircraft determined dependent on the measurements from the angle-of-attack sensor to the crew of the aircraft. 24. The method as recited in claim 23, wherein the determination of a coherence indicator between the angle-of-attack value and the pitch angle value comprises determining a difference between the pitch angle value and the angle-of-attack value, the angle-of-attack and pitch angle values being deemed coherent if the absolute value of the difference is below a predetermined difference threshold and not coherent if the absolute value of the difference is above the predetermined difference threshold. 25. The method as recited in claim 23 wherein the static coherence test comprises a prior determination step for determining a relevance of the static coherence test, comprising determining a flight path angle of the aircraft and a bank angle of the aircraft and comparing the flight path angle to a predetermined threshold, and comparing the bank angle to a predetermined bank angle threshold, the static coherence test being deemed relevant if the flight path angle and the bank angle are below or equal to the flight path angle and bank angle thresholds, respectively, and irrelevant if the flight path angle is above the flight path angle threshold and/or the bank angle is below the bank angle threshold. 26. The method as recited in claim 25, wherein results of the static coherence test are not taken into account when the static coherence test is deemed irrelevant. 27. The method as recited in claim 23 wherein the testing a coherence further includes a dynamic coherence test, in which the flight characteristic is a load factor of the aircraft, the measurements of the angle-of-attack sensor being deemed unreliable, or deemed coherent with the measurements of the load factor as a function of the value of the coherence indicator, the method further comprising, when the first and second intermediate states of credibility are successively activated in a time interval below a predetermined threshold, the method comprising, when the measurements of the angle-of-attack sensor are deemed reliable, determining speed information dependent on the measurements from the angle-of-attack sensor. 28. A system for providing a crew of an aircraft with speed information for operating the aircraft during a flight of the aircraft, the aircraft comprising at least one angle-of-attack sensor preforming measurements during the flight of the aircraft, comprising: a display in the aircraft configured for displaying the speed information of the aircraft to the crew;a computer configured for determining at least one angle-of-attack value of the aircraft from at least one measurement from the angle-of-attack sensor,the computer being configured for analyzing the accuracy of the at least one angle-of-attack value to determine whether the at least one angle-of-attack sensor is malfunctioning by carrying out at least one dynamic coherence test between angle-of-attack measurements of the aircraft, coming from the angle-of-attack sensor, and measurements of at a load factor of the aircraft,the computer being configured to determine at least one value of the load factor of the aircraft,the computer being configured to determine a value of at least one indicator of the coherence of the angle-of-attack value with the value of the load factor,the computer being configured to analyze, based on the value of the indicator, if the measurements of the angle-of-attack sensor are unreliable or coherent with the measurements of the load factor, andif the measurements of the angle-of-attack sensor are deemed unreliable: determining the speed information independent of the measurements from the angle-of-attack sensor, and directing the display of, by the display in the aircraft, the speed information of the aircraft determined independent of the measurements from the angle-of-attack sensor to the crew of the aircraft, andif the measurements of the angle-of-attack sensor are deemed coherent with the measurements of the load factor: determining the speed information dependent on the measurements from the angle-of-attack sensor,and directing the display of, by the display in the aircraft, the speed information of the aircraft determined dependent on the measurements from the angle-of-attack sensor to the crew of the aircraft. 29. A system for providing a crew of an aircraft with speed information for operating the aircraft during a flight of the aircraft, the aircraft comprising at least one angle-of-attack sensor preforming measurements during the flight of the aircraft, comprising: a display in the aircraft configured for displaying the speed information of the aircraft to the crew;a computer configured for determining at least one angle-of-attack value of the aircraft from at least one measurement from the angle-of-attack sensor,the computer being configured for analyzing the accuracy of the at least one angle-of-attack value to determine whether the at least one angle-of-attack sensor is malfunctioning by carrying out at least one static coherence test between angle-of-attack measurements of the aircraft, coming from the angle-of-attack sensor, and measurements of a pitch angle of the aircraft,the computer being configured to determine at least one value of the pitch angle of the aircraft,the computer being configured to determine a value of at least one indicator of the coherence of the angle-of-attack value with the value of the pitch angle,the computer being configured to analyze, based on the value of the indicator, if the measurements of the angle-of-attack sensor are unreliable or coherent with the measurements of the pitch angle, andif the measurements of the angle-of-attack sensor are deemed unreliable: determining the speed information independent of the measurements from the angle-of-attack sensor,and direct the display of, by a display in the aircraft, the speed information of the aircraft determined independent of the measurements from the angle-of-attack sensor to the crew of the aircraft, andif the measurements of the angle-of-attack sensor are deemed coherent with the measurements of the pitch angle: determining the speed information dependent on the measurements from the angle-of-attack sensor,and directing the display of, by the display in the aircraft, the speed information of the aircraft determined dependent on the measurements from the angle-of-attack sensor to the crew of the aircraft.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (3)
Greene Leonard M. (Scarsdale NY), Aircraft control system.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.