The present invention relates to a method and a device for guiding an aircraft.
More precisely, the guidance of the aircraft is implemented at least over an intermediate trajectory between a first flight trajectory for a low-altitude flight, and a second flight trajectory which starts at an initial point, and from which trajectory a parachute drop is carried out.
The present invention applies therefore to a parachute drop from an aircraft, in particular from a military transport plane, of elements, especially hardware and/or troops, that must be dropped by parachute onto a determined reception zone on the ground. To be able to carry out such a parachute drop under good conditions, it is necessary for the aircraft to arrive in a stabilized manner, at the right speed (with an appropriate acceleration), at the right altitude and in an aerodynamic configuration appropriate to said initial point corresponding to the start of said (second) flight is be carried out.
Additionally, to be able to carry out such a parachute drop as discretely as possible, the aircraft is generally made to fly along a low-altitude approach trajectory, up to said second flight trajectory, to allow the aircraft to benefit from masking by the terrain and thus not be easily detectable.
Moreover, to attempt to reach said initial point under the aforesaid particular conditions, the pilot of such an aircraft generally has at his disposal only information relating to a point of deceleration which is situated upstream of said initial point, and from which he is advised to decelerate the aircraft. However, this point of deceleration takes no account of the profile of the terrain on the approach to the parachute drop zone, and the pilot must therefore manually adjust the piloting of the aircraft so as to reach said initial point with said aforesaid particular conditions, this naturally being very difficult to achieve.
The present invention relates to a method of guiding an aircraft at least over an intermediate trajectory between a first flight trajectory for a low-altitude flight and a second flight trajectory which starts at an initial point, and from which trajectory a parachute drop is carried out, which method of guidance makes it possible to remedy the aforesaid drawbacks.
To this end, according to the invention, said method of guidance is noteworthy in that:
Thus, by virtue of the invention, the point (point of transition) where the aircraft must exit said first flight trajectory to be able to reach said initial point, under predetermined flight conditions, is known, making it possible to carry out a parachute drop under the best possible arrangements.
Preferably, said predetermined flight conditions relate to at least certain of the following conditions:
The present invention is appropriate both to manual guidance, and to automatic guidance in terms of trajectory and speed (time). Thus, advantageously:
In a particular embodiment, in step a), to determine said point of transition:
Moreover, advantageously, said intermediate trajectory corresponds to a straight line segment connecting said point of transition to said initial point.
Furthermore, to afford additional aid making it possible in particular to bring the aircraft in the most stabilized manner possible to said initial point, advantageously:
In a particular embodiment, said second flight trajectory, from which the parachute drop is carried out, is inserted into a low-altitude flight section comprising:
By virtue of this particular embodiment, the aircraft can continue to fly at low altitude or return to a low-altitude flight after the parachute drop phase (with a parachute drop performed, interrupted or abandoned) and thus benefit from the masking by the terrain.
In this case, advantageously:
The present invention also relates to a device for guiding an aircraft at least over an intermediate trajectory between a first flight trajectory for a low-altitude flight and a second flight trajectory which starts at an initial point, and from which trajectory a parachute drop is carried out.
According to the invention, said guidance device is noteworthy in that it comprises:
Moreover, in a particular embodiment, said second means comprise:
The device in accordance with the invention therefore affords valuable aid allowing an aircraft flying at low altitude to reach the start of a parachute drop phase under the best possible conditions, both under manual guidance and under automatic guidance.
The figures of the appended drawing will elucidate the manner in which the invention may be embodied. In these figures, identical references designate similar elements.
The guidance device considered here is a standard guidance device for an aircraft A, in particular for a military transport plane, which allows the implementation, in standard fashion, of manual guidance by a pilot of the aircraft A and/or of automatic guidance, for example by way of an automatic piloting system. The essential characteristics of such a guidance device are known and do not come directly into the framework of the present invention. Also, for the purpose of simplifying the drawing, only the characteristics used for the implementation of the present invention have been represented in
Said guidance device 1 makes it possible to guide the aircraft A along a flight trajectory TO comprising a lateral trajectory TLO defined in a lateral plane and represented partially in
In a preferred embodiment, said flight trajectory TO is a so-called string-like trajectory which consists of rectilinear segments (rectilinear segments S1 in the lateral plane, separated by waypoints P1 as represented in
The present invention relates to the case where, during a flight over a low-altitude flight section SV such as this, a parachute drop phase must be implemented. Such a parachute drop phase consists in dropping by parachute, onto a determined ground reception zone 7, elements such as hardware and/or troops. To be able to carry out such a parachute drop under good conditions, it is necessary for the aircraft A to arrive in a stabilized manner, at an appropriate speed and in an appropriate aerodynamic configuration, at an initial point 8 corresponding to the start of a stretch of flight trajectory T1 (with a lateral trajectory TL1 and a vertical trajectory TV1 which is situated at a height H1 above the ground), in the course of which the parachute drop is carried out. It must also comply with presets for slope, acceleration, time, etc.
According to the invention, to allow the aircraft A to arrive under the aforesaid conditions at said initial point 8, the guidance device 1 in accordance with the invention comprises:
Thus, by virtue of said device 1, the point (point of transition 12) where the aircraft A must exit said low-altitude flight trajectory TO so as to be able to reach said initial point 8 under appropriate flight conditions is known, making it possible to carry out, from the flight trajectory T1, a parachute drop under the best possible arrangements, as specified hereinafter.
It will be noted that by virtue of a low-altitude approach to the parachute drop zone 7, the aircraft A can benefit from effective masking by the terrain 5 overflown.
Within the framework of the present invention, the expression particular “aerodynamic configuration” is understood to mean a particular combination of the positions of movable elements (lift-enhancing flaps, landing gear, etc.), on which the aerodynamic characteristics of the aircraft A depend.
In a particular embodiment:
The present invention applies equally well to a flight under VMC conditions (VMC standing for “Visual Meteorological Conditions”), that is to say meteorological fly-by-sight conditions which are expressed as a function of visibility, of distance with respect to the clouds and to the ceiling, conditions equal to or greater than specified minima, as to flight under IMC conditions (IMC standing for “Instrument Meteorological Conditions”), that is to say meteorological instrument flight conditions which are expressed as a function of visibility, of distance with respect to the clouds and the ceiling, namely conditions less than the minima specified for the meteorological fly-by-sight conditions.
Said set 11 of information sources provides in particular:
Said set 11 of information sources also provides the time, the slope, the acceleration etc. chosen by the operator.
Thus, by virtue of the device 1 in accordance with the invention, the aircraft A can reach the point 8 of the flight trajectory T1 in a stabilized manner, that is to say at the predetermined speed and at the predetermined altitude and in the envisaged aerodynamic configuration, while complying with the presets for time, for slope, for deceleration etc. This is very important for allowing the parachute drop under the best possible stability conditions, after a low-altitude approach which is often unstable, since the aircraft A then follows the relief 6 of the terrain 5 as much as possible, for masking reasons in particular. The device 1 in accordance with the invention therefore makes it possible to increase the comfort of piloting, and to reduce the workload of the crew in such an approach phase which is often very demanding, while making it possible to reach said initial point 8 under the best possible conditions.
It will be noted that, during automatic guidance, if, at said point of transition 12, the corresponding guidance mode is not activated, the aircraft A continues to fly at low altitude along said flight trajectory TO (at low altitude).
In a particular embodiment, the means 9 determine said point of transition 12, by carrying out the following operations:
In the example represented in
Furthermore, in a particular embodiment, said means 9 additionally determine the following points, which are presented to a pilot of the aircraft A by the display means 14:
Thus, by virtue of the invention, the parachute drop can be carried out under the best possible conditions.
In order to carry out such a parachute drop, it is necessary in a known manner to determine the following points of the flight trajectory TV1, defined successively in the direction E of flight of the aircraft A;
In a preferred embodiment, said display means 14 also present at least said point 24 to the pilot of the aircraft A. This point 24 corresponds to the start of an intermediate flight phase making it possible to regain said low altitude trajectory TO.
As the point 2B of end of the low altitude flight section SV is situated downstream of said point 24, in the direction of flight E of the aircraft A, the latter therefore continues to fly at low altitude after the parachute drop, and thus to benefit from masking by the terrain 5.
Number | Date | Country | Kind |
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04 05383 | May 2004 | FR | national |
Number | Name | Date | Kind |
---|---|---|---|
3323762 | Mylrea, Sr. et al. | Jun 1967 | A |
3401905 | Rohrlick | Sep 1968 | A |
4651957 | Minnich, II | Mar 1987 | A |
4692869 | King et al. | Sep 1987 | A |
5110071 | Hunter et al. | May 1992 | A |
5816535 | Underwood et al. | Oct 1998 | A |
6289270 | Baumgarten | Sep 2001 | B1 |
6334344 | Bonhoure et al. | Jan 2002 | B1 |
Number | Date | Country |
---|---|---|
4339251 | Apr 1995 | DE |
0610128 | Aug 1994 | EP |
1428948 | Mar 1976 | GB |
Number | Date | Country | |
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20060102797 A1 | May 2006 | US |