Method and a device for issuing terrain avoidance warnings for a rotary wing aircraft
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64D-045/04
B64C-027/57
B64C-027/56
출원번호
US-0326717
(2014-07-09)
등록번호
US-9199744
(2015-12-01)
우선권정보
FR-13 01635 (2013-07-10)
발명자
/ 주소
Petillon, Jean-Paul
출원인 / 주소
Airbus Helicopters
대리인 / 주소
Brooks Kushman P.C.
인용정보
피인용 횟수 :
2인용 특허 :
12
초록▼
A method and a device (50) for issuing a terrain avoidance warning for a rotary wing aircraft (100) during which at least one bundle (N1, N2) of possible avoidance trajectories for said aircraft (100) is prepared in order to avoid a collision between said aircraft (100) and the relief (70) being ove
A method and a device (50) for issuing a terrain avoidance warning for a rotary wing aircraft (100) during which at least one bundle (N1, N2) of possible avoidance trajectories for said aircraft (100) is prepared in order to avoid a collision between said aircraft (100) and the relief (70) being overflown. A warning is then triggered as soon as said relief (70) being overflown is found to be at a distance from any one of said bundles (N1, N2) of possible avoidance trajectories that is less than a predetermined distance (Mv). Said avoidance trajectories are determined on the basis of a predetermined avoidance maneuver and on the basis of states of said aircraft (100), said predetermined avoidance maneuver being performed at a predetermined maximum power of said aircraft (100).
대표청구항▼
1. A method of issuing a terrain avoidance warning by a rotary wing aircraft, the method comprising the following steps performed repetitively: preparing at least one bundle of possible avoidance trajectories for the aircraft in order to avoid said aircraft colliding with relief being overflown by s
1. A method of issuing a terrain avoidance warning by a rotary wing aircraft, the method comprising the following steps performed repetitively: preparing at least one bundle of possible avoidance trajectories for the aircraft in order to avoid said aircraft colliding with relief being overflown by said aircraft or with an obstacle if any; andtriggering a warning if any one of said bundles of possible avoidance trajectories leads to a distance from said relief being overflown or from said obstacle if any that is less than a predetermined distance:wherein said possible avoidance trajectories are determined by a computer on the basis of a predetermined avoidance maneuver and on the basis of current states of said aircraft, said avoidance maneuver comprising:a deceleration stage of deceleration down to a predetermined forward speed Vafinal, said deceleration stage being obtained by said aircraft taking up a predetermined nose-up attitude and being performed at a predetermined maximum power of said aircraft; anda final stage of said aircraft climbing, during which the forward speed of said aircraft is kept equal to said predetermined forward speed Vafinal and the power from the engines is kept equal to said predetermined maximum power wherein said aircraft has a maximum continuous power and said predetermined maximum power of said aircraft is said maximum continuous power, and wherein said avoidance maneuver includes an initial stage of restoring said aircraft to straight line flight, which stage is performed before said deceleration stage. 2. A method according to claim 1, wherein said deceleration stage is performed with a cyclic stick of said aircraft so that during said deceleration stage, a portion of the kinetic energy of said aircraft is transformed into potential energy of said aircraft enabling a vertical speed Vv of said aircraft to be increased until said predetermined forward speed Vafinal is reached. 3. A method according to claim 2, wherein said avoidance maneuver is performed with a collective stick of said aircraft so as to adjust the power developed by said aircraft to a value equal to said predetermined maximum power of said aircraft. 4. A method according to claim 1, wherein said distance between each bundle of possible avoidance trajectories and said relief being overflown or indeed said obstacle if any that is compared with said predetermined distance is along a direction that is vertical only. 5. A method according to claim 1, wherein said possible avoidance trajectories of each bundle constitute an envelope of fan shape over a first distance d1 with a radius of curvature Re given by the relationship: Re=VH2g·tan(φ)g being an acceleration due to terrestrial gravity;φ being a roll angle of the aircraft; andVH being a horizontal component of the current forward speed of said aircraft. 6. A method according to claim 1, wherein, in order to determine each avoidance trajectory of said aircraft, future states of said aircraft are determined on the basis of states of said aircraft during at least five seconds preceding the current state of flight of said aircraft. 7. A method according to claim 1, wherein a vertical speed Vv of said aircraft is determined by a formula: Vv=VvS(Va,Ma,PS,TS,ES)+GSγHg VvS(Va,Ma,PS,TS,ES) corresponding to a static component VvSTAT of said vertical speed Vv, said static component VvSTAT being taken from a table obtained from charts in a flight manual of said aircraft, and GSγHg corresponding to a dynamic component of said vertical speed Vv, Va being a forward speed of said aircraft relative to the air;Ma being an apparent mass of said aircraft such that: Ma=Mg2+γH2g M being a mass of said aircraft, g being an acceleration due to terrestrial gravity, and γH being a horizontal acceleration of said aircraft; PS being a static pressure around said aircraft;TS being a static temperature around said aircraft;ES being a parameter corresponding to a state of one or more engines of said aircraft; andGS being a forward speed of said aircraft relative to the ground. 8. A method according to claim 1, wherein said predetermined nose-up attitude of said aircraft is constant. 9. A method according to claim 8, wherein said predetermined nose-up attitude of said aircraft is 15° relative to a horizontal plane. 10. A method according to claim 1, wherein said predetermined forward speed Vafinal corresponds to a forward speed Vy producing an optimum speed for climbing. 11. A method according to claim 1, wherein each bundle of said possible avoidance trajectories corresponds to a predetermined assumed reaction time of a pilot for performing each avoidance trajectory of said bundle. 12. A method according to claim 11, wherein a first warning is triggered when said bundle of avoidance trajectories leads to a distance less than said predetermined distance from said relief or said obstacle if any that corresponds to an assumed pilot reaction time equal to 20 s, in order to inform the pilot of a risk of said collision. 13. A method according to claim 11, wherein a second warning is triggered when said bundle of avoidance trajectories leads to a distance that is less than said predetermined distance from said relief or from said obstacle if any that corresponds to an assumed pilot reaction time equal to 5 seconds, in order to warn the pilot of an imminent risk of said collision. 14. A method according to claim 1, wherein said avoidance trajectory does not include a resource stage at constant load factor and constant speed. 15. A method according to claim 1, wherein said aircraft has an autopilot and said avoidance trajectory is followed by said autopilot as soon as a warning is triggered. 16. A device for issuing a terrain warning and for installing on board an aircraft, said device comprising: at least one computer suitable for performing a trajectory prediction algorithm;at least a first database of the relief of flying zones of said aircraft connected to said computer; andat least one warning means connected to said computer,wherein said device is suitable for performing the method according to claim 1. 17. A rotary wing aircraft comprising: at least a main rotor having a plurality of blades;a cyclic stick controlling a cyclic pitch of said blades of said main rotor;a collective stick controlling a collective pitch of said blades of said main rotor; anda plurality of sensors providing information about atmospheric parameters concerning operation of said aircraft and about states of said aircraft;wherein said aircraft includes a device according to claim 16.
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이 특허에 인용된 특허 (12)
Germanetti, Serge; Ducollet, Alain, Adapting selective terrain warnings as a function of the instantaneous maneuverability of a rotorcraft.
Kevin J Conner ; Steven C. Johnson, Apparatus, methods, and computer program products for determining a look ahead distance value for high speed flight.
Pitard, Fabien; Demortier, Jean-Pierre; Aubry, Florence, Method and device for detecting a risk of collision of an aircraft with the surrounding terrain.
Artini, Franck; Demortier, Jean-Pierre; Bouchet, Christophe; Espinasse, Jacques; Strongman, Edward, Method and device for ensuring the safety of a low-altitude flight of an aircraft.
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