Method and device for preventing an anti-collision system on board an airplane from emitting alarms, during an altitude capture maneuver
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G08G-005/04
G01C-021/00
G06F-017/10
G05D-001/00
G01S-013/00
G01S-003/02
출원번호
US-0016154
(2011-01-28)
등록번호
US-8477048
(2013-07-02)
우선권정보
FR-10 50719 (2010-02-02)
발명자
/ 주소
Botargues, Paule
Dal Santo, Xavier
Sapin, Olivier
Bompart, Vincent
출원인 / 주소
Airbus Operations (SAS)
대리인 / 주소
Wood, Herron & Evans, LLP
인용정보
피인용 횟수 :
1인용 특허 :
14
초록▼
According to the invention, the device (1) comprises means (3) for detecting, during an altitude capture maneuver, the emission of a first type alarm by the anti-collision system (2) and means (4) for controlling the vertical speed of said airplane (AC), after the emission of such an alarm, until th
According to the invention, the device (1) comprises means (3) for detecting, during an altitude capture maneuver, the emission of a first type alarm by the anti-collision system (2) and means (4) for controlling the vertical speed of said airplane (AC), after the emission of such an alarm, until the triggering of the capture phase.
대표청구항▼
1. A method for preventing at least some alarms from being emitted by an anti-collision system (2) on board an airplane (AC) during an altitude change maneuver comprising an approach phase followed by a phase for capturing a set level (Zc), said anti-collision system (2) being able to detect at leas
1. A method for preventing at least some alarms from being emitted by an anti-collision system (2) on board an airplane (AC) during an altitude change maneuver comprising an approach phase followed by a phase for capturing a set level (Zc), said anti-collision system (2) being able to detect at least one intrusive aircraft (AI) being located in the air environment of said airplane (AC), to calculate a theoretical collision time between said airplane (AC) and said intrusive aircraft (AI) and to emit first type alarms (TA) and second type alarms, when such a theoretical collision time is lower respectively than a first predetermined triggering threshold and a second predetermined triggering threshold, characterized in that, when said airplane (AC) is flying to said set level (Zc) with a vertical speed (Vz), the absolute value of which is at least equal to a first predetermined vertical speed threshold (Vz1), the following steps are carried out for preventing a second type alarm from being emitted: the emission of a first type alarm (TA) is first detected;in the case where said first type detected alarm (TA) occurs when the height (h) separating said airplane (AC) from said set level (Zc) is at the most equal to a predefined height threshold (ho), the vertical speed (Vz) of said airplane (AC) is reduced so that the absolute value thereof is equal to said first vertical speed threshold (Vz1), so as to maintain the theoretical collision time associated with a second type alarm above the second triggering threshold; andin the case where said first type detected alarm (TA) occurs when the height (h) separating said airplane (AC) from said set level (Zc) is strictly higher than said height threshold (ho):i) as long as the height (h) separating said airplane (AC) from said set level (Zc) remains strictly higher than said height threshold (ho), the vertical speed (Vz) of said airplane (AC) is reduced so that the absolute value thereof is equal to a second predetermined vertical speed threshold (Vz2); andii) then, when the height (h) separating said airplane (AC) of said set level (Zc) is at the most equal to said height threshold (ho), the vertical speed (Vz) of said airplane (AC) is limited so that the absolute value thereof is equal to said first vertical speed threshold (Vz1), until said capture phase is initiated, so as to maintain the theoretical collision time associated with a second type alarm above the second triggering threshold. 2. The method according to claim 1, characterized in that said second vertical speed threshold (Vz2) depends on the height (h) separating the airplane (AC) from said set level (Zc) to be reached and on the vertical speed (Vz) of said airplane (AC), at the time of the emission of said first type alarm (TA). 3. The method according to claim 2, characterized in that said second vertical speed threshold (Vz2) is determined by the linear interpolation of a predetermined set of values of vertical speed, each one of said values being associated to a couple of values comprising a height value separating said airplane (AC) from said set level (Zc) and a vertical speed value of said airplane (AC), at the time of the emission of a first type alarm (TA). 4. The method according to claim 1, characterized in that, after a first type alarm (TA) has been emitted and detected when the height (h) separating said airplane (AC) from said set level (Zc) is strictly higher than said height threshold (ho) and the absolute value of the vertical speed (Vz) of said airplane (AC) is equal to said second speed threshold (Vz2), in the case where a new first type alarm (TA′) is emitted for a height (h) of said airplane with respect to said set level (Zc) always strictly higher than said height threshold (ho), said vertical speed (Vz) of said airplane (AC) is again reduced so that the absolute value thereof is equal to a third speed threshold (Vz3). 5. The method according to claim 4, characterized in that said third vertical speed threshold (Vz3) depends on the height (h) separating said airplane (AC) from said set level (Zc) and on the vertical speed (Vz) of said airplane (AC), at the time of the emission of the new first type alarm (TA′). 6. The method according to claim 1, characterized in that the speed values of said predetermined set are such that the reduction of the vertical speed (Vz) of said airplane (AC), in step i), results in a limited increase of the time necessary to said airplane (AC) to cause the height (h) separating it from said set level (Zc) to be at the most equal to said height threshold (ho), as from the emission of said first type alarm (TA). 7. The method according to claim 1, characterized in that said capture phase is initiated when the height (h) separating said airplane (AC) from said set level (Zc) to be reached is at the most equal to a predetermined capture height (hc), defined by the following equation: hc=Vz22gnz wherein: hc is the capture height;Vz is the vertical speed of said airplane;g is the gravity acceleration; andnz is the constant vertical load factor. 8. A device for preventing at least some alarms from being emitted by an anti-collision system (2) on board an airplane (AC) during an altitude change maneuver comprising an approach phase followed by a phase for capturing a set level (Zc), said anti-collision system (2) being able to detect at least one intrusive aircraft (AI) being located in the air environment of said airplane (AC), to calculate a theoretical collision time between said airplane (AC) and said intrusive aircraft (AI) and to emit first type alarms (TA) and second type alarms, when such a theoretical collision time is lower respectively than a first predetermined triggering threshold and a second predetermined triggering threshold, characterized in that said airplane (AC) flying to said set level (Zc) with a vertical speed (Vz), the absolute value of which is at least equal to a first predetermined threshold of vertical speed (Vz1), said device (1) comprises: means (3) for detecting the emission of a first type alarm (TA) by the anti-collision system (2);means (4) for controlling the vertical speed (Vz) of said airplane (AC) such as: in the case where said first type detected alarm (TA) occurs when the height (h) separating said airplane (AC) from said set level (Zc) is at the most equal to a predefined height threshold (ho), the vertical speed (Vz) of said airplane (AC) is reduced so that the absolute value thereof is equal to said first vertical speed threshold (Vz1), so as to maintain said theoretical collision time associated with a second type alarm above the second triggering threshold; andin the case where said first type detected alarm (TA) occurs when the height (h) separating said airplane (AC) from said set level (Zc) is strictly higher than said height threshold (ho): as long as the height (h) separating said airplane (AC) from said set level (Zc) remains strictly higher than said height threshold (ho), the controlling means (4) reduce the vertical speed (Vz) of said airplane (AC) so that the absolute value thereof is equal to a second predetermined vertical speed threshold (Vz2); andwhen the height (h) separating said airplane (AC) from said set level (Zc) is at the most equal to said height threshold (h), said controlling means (4) limit the vertical speed (Vz) of said airplane (AC) so that the absolute value thereof is equal to said first vertical speed threshold (Vz1), until said capture phase is initiated, so as to maintain said calculated collision time associated with a second type alarm above the second triggering threshold. 9. An airplane comprising the device (1) specified in claim 5.
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이 특허에 인용된 특허 (14)
Flotte, Laurent; Marty, Nicolas; Sallier, Aurélie, Air navigation aid method and system making it possible to maintain vertical margins.
Botargues, Paule; Dal Santo, Xavier; Fabre, Pierre; Guery, Xavier, Method and device for limiting the number of alarms generated by an anti-collision system on board an airplane.
Wichgers, Joel M.; Jinkins, Richard D.; McCusker, Patrick D.; Rademaker, Richard M., Systems and methods for generating alert signals in a terrain awareness and warning system.
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