IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0479479
(2012-05-24)
|
등록번호 |
US-8548653
(2013-10-01)
|
우선권정보 |
FR-11 54597 (2011-05-26) |
발명자
/ 주소 |
- Puig, Stéphane
- Delporte, Martin
- Gauvain, Jérôme
|
출원인 / 주소 |
|
대리인 / 주소 |
Wood, Herron & Evans, LLP
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
2 |
초록
▼
A system for aiding piloting of an airplane during a final approach includes current roll angle sensors that measures a current roll angle of the airplane, and a maximum roll angle calculation device that calculates a limit roll angle corresponding to a maximum roll angle at which an end point of th
A system for aiding piloting of an airplane during a final approach includes current roll angle sensors that measures a current roll angle of the airplane, and a maximum roll angle calculation device that calculates a limit roll angle corresponding to a maximum roll angle at which an end point of the airplane will not strike the ground. The system also includes a display for automatically presenting on a single screen a first characteristic sign illustrating the current roll angle and a second characteristic sign illustrating the limit roll angle. If a potential ground collision is presented by too high of a current roll angle, an alarm may be emitted or automatic control of the airplane may occur to correct the roll angle.
대표청구항
▼
1. An aiding method for piloting of an airplane upon an approach phase to an airport, wherein the following succession of steps is carried out on an automatic and repetitive way, the method comprising: a) determining, with a set of information sources including sensors on the airplane, a current hei
1. An aiding method for piloting of an airplane upon an approach phase to an airport, wherein the following succession of steps is carried out on an automatic and repetitive way, the method comprising: a) determining, with a set of information sources including sensors on the airplane, a current height of the airplane relative to ground and a current pitch angle of the airplane;b) from the current height and the current pitch angle and geometrical data being representative of the airplane and related to an end point of the airplane, calculating, with a maximum roll angle calculation device on the airplane, a limit roll angle, which is a maximum roll angle at which the end point of the airplane will not strike the ground, the limit roll angle φlim being calculated by: cos2φlim=(−b+√{square root over (b2−4ac)})/2a with:a=Y12+(HRA+Z2−Z1)2 b=2tgθ(HRA+Z2−Z1)X1 c=tg2θX12−Y12 wherein: tg represents a tangent;θ is the current pitch angle of the airplane;HRA is the current height of the airplane relative to the ground, being measured by a radio-altimeter according to a measurement direction;Z2 is a distance along the measurement direction between a centre of gravity of the airplane and a measurement point of the radio-altimeter; andX1, Y1 and Z1 are geometrical data being representative of the airplane and correspond to distances between the centre of gravity of the airplane and the end point, respectively along three axes of movement relative to the airplane;c) determining a current roll angle of the airplane with current roll angle sensors on the airplane; andd) presenting on a single screen on the airplane a first characteristic sign illustrating the current roll angle and a second characteristic sign illustrating the limit roll angle. 2. The method according to claim 1, further comprising: automatically and repetitively comparing, with a comparison device, the current roll angle to a sum of the limit roll angle and a predetermined margin, andemitting, with alarm devices, an alarm message if the current roll angle is higher than the sum. 3. The method according to claim 1, further comprising: automatically and repetitively comparing, with a comparison device, the current roll angle to a sum of the limit roll angle and a predetermined margin, and,if the current roll angle is higher than the sum, automatically controlling the airplane, with an automatic flight control mechanism, so that the current roll angle is modified to become lower than or equal to the sum. 4. The method according to claim 1, further comprising: at step b), estimating, with a roll tendency calculation device, a future value of roll angle of the airplane; andat step d), presenting on the single screen a third characteristic sign illustrating the future value of roll angle of the airplane. 5. The method according to claim 4, further comprising: at step b), calculating, with the roll tendency calculation device, the future value of the roll angle from a derivative of the current roll angle of the airplane and a predetermined prediction time. 6. The method according to claim 1, further comprising: upon an approach, automatically and repetitively determining, with the set of information sources, the current height of the airplane relative to the ground,comparing the current height to a predetermined height value, andinitiating, with a roll limit activation unit, the steps b) to d), as soon as the current height becomes lower than the predetermined height value. 7. The method according to claim 1, wherein the airplane includes engines arranged under the wings, wherein the end point includes both one wing tip and one engine pod end, and the method further comprises: implementing the steps b) and d) for both the one wing tip and the one engine pod end as end points, such that a lowest limit roll angle is displayed and stored as a function of current flight parameters of the airplane. 8. An automatic aiding system for piloting of an airplane upon an approach phase to an airport, the system comprising: a set of information sources including sensors on the airplane that automatically determine a current height of the airplane relative to ground and a current pitch angle of the airplane;a maximum roll angle calculation device on the airplane that automatically calculates, from the current height and the current pitch angle and geometrical data being representative of the airplane and related to an end point of the airplane, a limit roll angle, which is a maximum roll angle at which the end point of the airplane will not strike the ground, the limit roll angle φlim being calculated by: cos2φlim=(−b+√{square root over (b2−4ac)})/2a with:a=Y12+(HRA+Z2−Z1)2 b=2tgθ(HRA+Z2−Z1)X1 c=tg2θX12−Y12 wherein: tg represents a tangent;θ is the current pitch angle of the airplane;HRA is the current height of the airplane relative to the ground, being measured by a radio-altimeter according to a measurement direction;Z2 is a distance along the measurement direction between a centre of gravity of the airplane and a measurement point of the radio-altimeter; andX1, Y1 and Z1 are geometrical data being representative of the airplane and correspond to distances between the centre of gravity of the airplane and the end point, respectively along three axes of movement relative to the airplane;current roll angle sensors on the airplane that automatically determine a current roll angle of the airplane; anda display on the airplane including a single screen that automatically presents a first characteristic sign illustrating the current roll angle and a second characteristic sign illustrating the limit roll angle. 9. The system according to claim 8, wherein the single screen includes a primary flight screen in a cockpit. 10. The system according to claim 8, wherein the set of information sources comprises at least one radio-altimeter to determine the current height relative to the ground. 11. The system according to claim 8, further comprising: a comparison device that automatically compares the current roll angle to a sum of the limit roll angle and a predetermined margin, andalarm devices that automatically emit an alarm message if the current roll angle is higher than the sum. 12. The system according to claim 8, further comprising: a comparison device that automatically compares the current roll angle to a sum of the limit roll angle and a predetermined margin, andan automatic flight control mechanism that automatically controls the airplane if the current roll angle is higher than the sum, so as to modify the current roll angle back to being lower than or equal to the sum. 13. An airplane comprising the system of claim 8. 14. The system according to claim 8, further comprising: a roll tendency calculation device that estimates a future value of roll angle of the airplane from a derivative of the current roll angle of the airplane and a predetermined prediction time, such that the single screen of the display also presents the future value of toll angle of the airplane. 15. The system according to claim 8, further comprising: a roll limit activation unit that compares the current height of the airplane with a predetermined height value and initiates operation of the maximum roll angle calculation device, the current roll angle sensors, and the display when the current height becomes lower than the predetermined height value.
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