초록 ▼

The parts of the flight plan of an aircraft corresponding to lateral trajectories at low altitude can comprise passages with limited lateral freedom of deployment either because of risks of collision with the ground, or because of risks of penetration into a forbidden overfly zone. The method makes

The parts of the flight plan of an aircraft corresponding to lateral trajectories at low altitude can comprise passages with limited lateral freedom of deployment either because of risks of collision with the ground, or because of risks of penetration into a forbidden overfly zone. The method makes it possible to signal them for the attention of the crew, on the onboard navigation screen, so that said crew should redouble their attention. To do this it uses a detection procedure analogous to that of TAWS ground collision risk warning systems with protection envelopes related to the aircraft, of shapes suitable for the monitoring of the integrity of the spaces necessary for the aircraft to perform flat turns that are as tight as is permitted, while taking account of the local wind.

대표청구항 ▼

The invention claimed is: 1. A method for evaluating and signaling the lateral margins of maneuver on either side of a trajectory scheduled in the flight plan of an aircraft furnished with a locating device and with a cartographic device formulating, on the basis of a topographic database onboard o

The invention claimed is: 1. A method for evaluating and signaling the lateral margins of maneuver on either side of a trajectory scheduled in the flight plan of an aircraft furnished with a locating device and with a cartographic device formulating, on the basis of a topographic database onboard or accessible from onboard, an envelope of the terrain overflown comprising the steps of: generation, on the basis of a position of the aircraft traveling along the trajectory scheduled in the flight plan, of two adjoining lateral protection envelopes, right and left extending one to the right and the other to the left of a navigation band centered on the trajectory scheduled in the flight plan and of width Wn taking account of the uncertainties of location of the aircraft, of the inaccuracy of the envelope of the terrain overflown delivered by the cartographic device and of a lateral tolerance accepted in the tracking of the trajectory scheduled in the flight plan, the right lateral protection envelope delimiting a sufficient volume to allow the aircraft to perform at least one half-revolution, flat, to the right, during a turn with imposed radius R, the left lateral protection envelope also delimiting a sufficient volume to allow the aircraft to perform at least one half-revolution, flat, to the left, during a turn with imposed radius, and detection of the intrusions of the envelope of the terrain overflown into the right and left lateral protection envelopes, and signaling of the passages of the trajectory scheduled in the flight plan with reduced margins of lateral maneuver on the right and/or on the left corresponding to intrusions of the envelope of the terrain overflown into one or the other of the right or left lateral protection envelope; wherein the longitudinal and lateral dimensions of the right and left lateral protection envelopes are dependent on the imposed turning radius R and the positions, with respect to the aircraft, of the points of the ground traces of the turns with the imposed radius R corresponding, for the aircraft, to a vanishing of its speed component perpendicular to the course scheduled in its flight plan. 2. The method as claimed in claim 1, wherein a limitation of lateral margin of maneuver at a point of the trajectory scheduled in the flight plan is signaled on a navigation map by a doubling of the plot of the trajectory at the point concerned, on the side of each right or left lateral protection envelope having undergone an intrusion of the envelope of the terrain overflown. 3. The method as claimed in claim 1, wherein the right and left lateral protection envelopes are dimensioned so as to delimit a sufficient volume to allow the aircraft to perform a complete revolution, flat, to the right or to the left while taking account of the local wind W. 4. The method as claimed in claim 1, wherein the turning radius R imposed is a permitted minimum turning radius for the aircraft considered. 5. The method as claimed in claim 1, wherein the right and left lateral protection envelopes are of parallelepipedal shape, with a horizontal lower face placed below the aircraft at a vertical distance Hb corresponding to a safety height margin MTCD increased by a margin of maneuver of return to the horizontal Hd, two vertical lateral faces, one tangent to the course of the aircraft, the other shifted laterally from the aircraft by the necessary distance Wr, Wl required by the aircraft to accomplish a half-revolution taking account of the local wind W and the imposed turning radius R, a vertical frontal face and a vertical rear face having the course of the aircraft as director axis, the frontal face being placed ahead of the aircraft at a distance Lf corresponding to that necessary for the aircraft to accomplish a quarter of a revolution taking account of the local wind Ws and the imposed turning radius R, and the rear face being spaced from the front face by the distance necessary for the aircraft to supplement the quarter of a revolution with a half-revolution taking account of the local wind W and the imposed turning radius R. 6. The method as claimed in claim 1, wherein the right and left lateral protection envelopes have one and the same longitudinal dimension. 7. The method as claimed in claim 6, wherein the right and left lateral protection envelopes have as longitudinal dimension the sum of a component Lf, directed towards the front of the aircraft, taken equal to the largest value out of: the turning diameter 2R whose value is given by: TAS being the amplitude of the air speed of the aircraft, φroll being the angle of roll of the aircraft during the turning maneuver, g being the acceleration due to gravity, and the values taken by the component yt parallel to the course scheduled in the flight plan, of the separation of the positions on the ground traces of turns to the right and to the left, with the imposed radius R, at the times tLR1, tLl1 and tLr2, tLl2 of the first and second vanishings of the aircraft's speed component parallel to the course scheduled in the flight plan description="In-line Formulae" end="lead"Lf=Max [2R; yt(tLl1); yt(tLl2); yt(tLr1); yt(tLr2)]description="In-line Formulae" end="tail" and of a component Lr, directed towards the rear of the aircraft, taken equal to the absolute value of the smallest of the values taken by the component yt parallel to the course scheduled in the flight plan on the ground traces of turns to the right and to the left, with the imposed radius, at the times tLr1, tLl1 and tLr2, tLl2 of the first and second vanishings of the aircraft's speed component parallel to the course scheduled in the flight plan: description="In-line Formulae" end="lead"Lr=Abs(Min[yt(tLl1 ); yt(tLl2); yt(tLr1); yt(tLr2)]).description="In-line Formulae" end="tail" 8. The method as claimed in claim 1, wherein the lateral dimensions of the two right and left lateral protection envelopes have as lateral dimensions, the one, the right one Wr, the largest value out of: the turning diameter 2R whose value is given by: TAS being the amplitude of the air speed of the aircraft, φroll being the angle of roll of the aircraft during the turning maneuver, and the values taken by the component xt perpendicular to the course scheduled in the flight plan on the ground trace of the turn with imposed radius, at the times tWr1 and tWr2 of the first and second vanishings of the aircraft's speed component perpendicular to the course scheduled in the flight plan, increased by the width Wn of the navigation band: description="In-line Formulae" end="lead"Wr=Max [2R; xt(tWr1); xt(tWr2)]+Wn with δ=+1description="In-line Formulae" end="tail" and the other, the left one Wl, the largest value out of: the turning diameter 2R, the opposites of the values taken by the component xt perpendicular to the course scheduled in the flight plan on the ground trace of the turn with imposed radius, at the times tWl1 and tWl2 of the first and second vanishings of the aircraft's speed component perpendicular to the course scheduled in the flight plan increased by the width Wn of the navigation band.