Method and device for detecting a failure on an aircraft
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01M-017/00
G05B-023/02
B64C-013/50
출원번호
US-0306655
(2014-06-17)
등록번호
US-10209162
(2019-02-19)
우선권정보
FR-13 55665 (2013-06-17)
발명자
/ 주소
Gheorghe, Anca
Goupil, Philippe
Dayre, Rémy
Zolghadri, Ali
Cieslak, Jérôme
Efimov, Denis
출원인 / 주소
Airbus Operations (S.A.S.)
대리인 / 주소
Nixon & Vanderhye P.C.
인용정보
피인용 횟수 :
0인용 특허 :
3
초록▼
The detecting means (1) comprise measuring means (2) adapted to measure and provide at least one raw data corresponding to an aircraft parameter, computing means (3) adapted to estimate at least one derivative of said raw data, and detecting means (4) adapted to detect a failure with the aid of said
The detecting means (1) comprise measuring means (2) adapted to measure and provide at least one raw data corresponding to an aircraft parameter, computing means (3) adapted to estimate at least one derivative of said raw data, and detecting means (4) adapted to detect a failure with the aid of said derivative, said computing means (3) being adapted to estimate said derivative by differentiation.
대표청구항▼
1. A method for detecting a fault on an aircraft, comprising the following successive steps implemented in an automated and repeated manner: a) providing a control surface on the aircraft, wherein the control surface is adapted to be moved to control the aircraft;b) monitoring a movement parameter i
1. A method for detecting a fault on an aircraft, comprising the following successive steps implemented in an automated and repeated manner: a) providing a control surface on the aircraft, wherein the control surface is adapted to be moved to control the aircraft;b) monitoring a movement parameter indicative of the movement of the control surface on the aircraft by a single sensor;c) outputting by the single sensor at least one noisy datum indicating the movement parameter;d) receiving the at least one noisy datum output by the sensor, wherein the derivative of the at least one noisy datum is established by a sliding mode differentiator;e) estimating a derivative of said at least one noisy datum by differentiation, on the basis of said at least one noisy datum;f) detecting a fault on the basis of at least the estimated derivative, andg) declaring the fault as a failure of the control surface in conjunction with monitoring performance of the aircraft. 2. The method according to claim 1, wherein, said at least one noisy datum is in the form y(k)=y0(k)+ε(k), where y0(k) is an useful datum and ε(k) is noise at the time k, the derivative of rank n of said useful datum y0(k) verifying a Lipschitz-type smoothing condition: |y0(n)(k)−y0(n)(k−1)|≤LΔt, where L is a constant, said method consisting in eliminating the components of said at least one noisy datum y(k) of which the rate of variation in the derivative of rank n is greater than L. 3. The method according to claim 2, wherein said sliding mode differentiator is a Levant differentiator of order n said Levant differentiator being in the form: {z.0=-α0z0-yn/(n+1)sign(z0-y)+z1z.1=-α1z1-z.0(n-1)/nsign(z1-z.0)+z2…z.i=-αizi-z.i-1(n-i)/(n-i+1)sign(zi-z.i-1)+zi+1…z.n=-αnsign(zn-z.n-1)where z0, z1 . . . zn represent estimates of a signal and of its successive n derivatives respectively, and coefficients αi are positive gains representing adjustment parameters. 4. The method according to claim 3, wherein said sliding mode differentiator is a Levant differentiator of order 1, the Levant differentiator having the following form: {z.0=-α0z0-y1/2sign(z0-y)+z1z.1=-α1sign(z1-z.0)=-α1sign(z0-y). 5. The method according to claim 4, wherein a value of L is selected so as to minimize estimation error |z0−y|. 6. The method according to claim 1 further comprising determining a derivative of a control signal form a control signal applied to move the control surface and comparing the derivative of the control signal to the estimated derivative, wherein the detection of the fault is based on the comparison. 7. The method according to claim 1, wherein the single sensor is a control surface movement sensor. 8. The method according to claim 1 further comprising repeatedly performing steps b) to e) to generate a sequence of estimated derivatives, and the detection of the fault includes a determination of whether a number of the estimated derivatives exceeds a predetermined number. 9. The method according to claim 8, the estimation of the derivative includes using a Levant differentiator of order 1, in which: {z.0=-αz0-y1/2sign(z0-y)+z1z.1=-βsign(z0-y)=-χsign(z1)-z1;where α, β, χ are adjustment parameters depending on L. 10. The method according to claim 1, wherein the detection of the fault is based on a determination that the estimated derivative is zero. 11. The method according to claim 1, further comprising determining a derivative of a control signal applied to move the control surface and wherein the detection of the fault includes a determination that one of the derivative of the control signal and the estimated derivative is zero while the other is not zero. 12. An aircraft comprising: a control surface configured to move in response to a pilot command;a single control surface movement sensor configured to monitor movements of the control surface and transmit at least one noisy datum indicative of movement of the control surface;device for detecting a fault of the control surface on an aircraft in connection with monitoring performance of the aircraft, wherein the device comprises: a computing unit adapted to estimate at least one derivative of said at least one noisy datum, wherein, the derivative of said at least one noisy datum is estimated by a sliding mode differentiator; anda detector adapted to detect the fault on the basis of said derivative and declare the fault to be a failure of the control surface.
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이 특허에 인용된 특허 (3)
Klansnic James E. (Bellevue WA) Turner Bernus G. (Woodinville WA), Fault monitoring system for aircraft power control units.
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