Method and a device for assisting the piloting of an aircraft during an approach phase
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G05D-001/10
G05D-001/02
출원번호
UP-0394200
(2006-03-31)
등록번호
US-7522977
(2009-07-01)
우선권정보
FR-05 03271(2005-04-04)
발명자
/ 주소
Foucart, Vincent
Albert, Eric
Gonzalez, Patrice
출원인 / 주소
AIRBUS France
대리인 / 주소
Dickinson Wright, PLLC
인용정보
피인용 횟수 :
8인용 특허 :
5
초록▼
A method for landing an aircraft includes determining the aircraft's deviation from its approach path so as to define a first point of the aircraft's heading. A first straight line passing through the first point and through a second point defining the ground orientation of the approach path is disp
A method for landing an aircraft includes determining the aircraft's deviation from its approach path so as to define a first point of the aircraft's heading. A first straight line passing through the first point and through a second point defining the ground orientation of the approach path is displayed, by a head-up display, on a horizon line with a heading scale. The first straight line represents a ground plot of the approach path. A first assistance gate is displayed such that the first straight line passes through the first assistance gate when the aircraft is aligned on the approach path. A second straight line, parallel with the horizon line and passing through the first point, is displayed and represents a plot on the ground of the origin of the approach path. A second assistance gate is displayed under the horizon line and represents the slope of the approach path.
대표청구항▼
The invention claimed is: 1. A method for assisting the piloting of an aircraft, during an approach phase, for the purpose of landing on a landing runway, wherein the following series of successive steps is carried out in an automatic and repetitive manner: a) determining a first angular deviation
The invention claimed is: 1. A method for assisting the piloting of an aircraft, during an approach phase, for the purpose of landing on a landing runway, wherein the following series of successive steps is carried out in an automatic and repetitive manner: a) determining a first angular deviation which corresponds to an angular deviation in a horizontal plane between: (1) a straight line passing through the actual position of the aircraft and through a point of origin of a first approach path and (2) said first approach path which depends on the landing runway; b) determining a second angular deviation which corresponds to an angular deviation in a vertical plane between: (1) a straight line passing through the actual position of the aircraft and through a point of origin of a second approach path and (2) said second approach path which also depends on the landing runway; c) determining, based on the first and second angular deviations, a first point that defines the location of the aircraft relative to the first and second approach paths; d) displaying on a display screen of a head-up display device of the aircraft, superimposed on the environment seen in front of the aircraft, a first straight line passing through this first point and through a second point, said second point illustrating the orientation on the ground of said first approach path, seen from the aircraft, and which is placed on a horizon line provided with a heading scale, relative to the heading of the aircraft, said first straight line representing in a true manner the plot on the ground of said first approach path; e) displaying on the display screen a first assistance gate such that said first straight line passes through this first assistance gate when the aircraft is aligned on said first approach path; f) displaying on the display screen a second straight line, parallel with the horizon line and passing through said first point, this second straight line representing in a true manner the plot on the ground of the origin on the ground of said second approach path; g) displaying on the display screen a second assistance gate placed under the horizon line and representing the slope of said second approach path, seen from the aircraft; and h) displaying on the display screen a synthetic runway, defined around said first point, this synthetic runway representing in a true manner the plot on the ground of the sides of the landing runway where said first and second approach paths originate. 2. The method as claimed in claim 1, wherein in step c) a lateral deviation value and an elevation value are calculated based on said first and second angular deviations respectively, and said first point is determined based on said lateral deviation and elevation values, said first point being defined with respect to the heading of said aircraft presented on said horizon line provided with the heading scale, and this is done horizontally according to said lateral deviation value and vertically according to said elevation value. 3. The method as claimed in claim 2, wherein said lateral deviation value, DEVL, is calculated using the following expression: DEVL=A1+LOCDEV in which: A1 represents an angular deviation in a horizontal plane between the heading of the aircraft and the orientation of said first approach path; and LOCDEV represents said first angular deviation. 4. The method as claimed in claim 3, wherein said first and second approach paths respectively correspond to a lateral alignment beam and a descent alignment beam which are transmitted by a precision approach system, and wherein in steps a) and b) said first and second angular deviations are measured from the aircraft. 5. The method as claimed in claim 2, wherein said elevation value, Vsite, is calculated using the following expression: Vsite=A2=GSDEV in which: A2 represents an angular deviation in a vertical plane between said second approach path and the horizontal; and GSDEV represents said second angular deviation. 6. The method as claimed in claim 5, wherein said first and second approach paths respectively correspond to a lateral alignment beam and a descent alignment beam which are transmitted by a precision approach system, and wherein in steps a) and b) said first and second angular deviations are measured from the aircraft. 7. The method as claimed in claim 2, wherein said first and second approach paths respectively correspond to a lateral alignment beam and a descent alignment beam which are transmitted by a precision approach system, and wherein in steps a) and b) said first and second angular deviations are measured from the aircraft. 8. The method as claimed in claim 1, wherein said first and second approach paths respectively correspond to a lateral alignment beam and a descent alignment beam which are transmitted by a precision approach system, and wherein in steps a) and b) said first and second angular deviations are measured from the aircraft. 9. The method as claimed in claim 1, wherein said first and second approach paths respectively correspond to a lateral alignment beam and to a descent alignment beam which are determined by a non-precision approach aid system. 10. The method as claimed in claim 1, wherein said heading scale is reset by shifting it laterally in such a way as to align said second point on a route followed by the aircraft during the approach phase. 11. The method as claimed in claim 10, wherein said resetting is carried out by taking account of a current route determined for predetermined flight conditions. 12. The method as claimed in claim 10, wherein an error due to a magnetic declination is estimated just once and the resetting is then carried out by taking account of the error thus estimated. 13. The method as claimed in claim 10, wherein the resetting is carried out by taking account of a heading calculated using the following expression: in which: arctg represents the inverse of the tangent; GS(t) is a current ground speed of the aircraft; R(t) is a current heading of the aircraft (A); and t0 and t1 are two particular times where the aircraft crosses a lateral alignment beam. 14. A device for assisting the piloting of an aircraft during an approach phase for the purpose of a landing on a landing runway, the device comprising: a first means for determining a first angular deviation which corresponds to an angular deviation in a horizontal plane between: (1) a straight line passing through the actual position of the aircraft and through a point of origin of a first approach path and (2) said first approach path which depends on the landing runway; a second means for determining a second angular deviation which corresponds to an angular deviation in a vertical plane between: (1) a straight line passing through the actual position of the aircraft and through a point of origin of a second approach path and (2) said second approach path which also depends on the landing runway; a central unit for determining, based on the first and second angular deviations, a first point that defines the location of the aircraft relative to the first and second approach paths; and a head up display device for displaying on a display screen, superimposed on the environment seen in front of the aircraft: (i) a first straight line passing through the first point and through a second point which illustrates the orientation on the ground of said first approach path, seen from the aircraft, and which is placed on a horizon line provided with a heading scale, relative to the heading of the aircraft, said first straight line representing in a true manner the plot on the ground of said first approach path; (ii) a first assistance gate such that said first straight line passes through this first assistance gate when the aircraft is aligned on said first approach path; (iii) a second straight line, parallel with the horizon line and passing through said first point, this second straight line representing in a true manner the plot on the ground of the origin on the ground of said second approach path; (iv) a second assistance gate placed under the horizon line and representing the slope of said second approach path seen from the aircraft; and (v) a synthetic runway, defined around said first point, this synthetic runway representing in a true manner the plot on the ground of the sides of the landing runway where said first and second approach paths originate. 15. The device as claimed in claim 14, wherein said first and second means are part of at least one detector of a precision approach system. 16. The device as claimed in claim 14, wherein said first and second means are part of a non-precision approach aid system. 17. The device as claimed in claim 14, wherein it comprises, in addition, a third means for resetting said heading scale by shifting it laterally in such a way as to align said second point on a route followed by the aircraft during the approach phase. 18. An aircraft, comprising the device of claim 14.
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이 특허에 인용된 특허 (5)
Hansen, Richard; Wood, Robert B.; Hartman, Brian, Aircraft head up display system.
Kubbat Wolfgang (Jugenheim DEX) Mensen Heinrich (Frankfurt am Main DEX) Below Christian (Berlin DEX) Kling Heribert (Frankfurt DEX) von Viebahn Harro (Darmstadt-Eberstadt DEX), Method and apparatus for displaying flight-management information.
Bourret, Thierry; Ahualle Horimoto, Kenji, Method and device for vertically guiding an aircraft during an approach of a runway along a lateral approach trajectory.
McCusker, Patrick D.; Barber, Sarah; Turcios, Felix B.; Bell, Douglas A.; Jinkins, Richard D.; Etherington, Timothy J.; Krenz, Michael J.; Dirks, Charles B., System supporting flight operations under instrument meteorological conditions using precision course guidance.
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