Method And Device For Aiding The Piloting Of An Aircraft During A Final Approach Phase

Abstract

Method and device for aiding the piloting of an aircraft during a final approach phase.

Description

The present invention relates to a method and a device for aiding the piloting of an aircraft, particularly a transport aircraft, during an approach final phase for the landing on an airport.

To implement an approach final phase on an airport, the crew of an aircraft, particularly of a transport aircraft, has to indicate to the on-board systems the particular final approach that has to be followed, amongst a plurality of different approaches being possible. The cockpits of the aircrafts include a flight management system, of the <<FMS>> (<<Flight Management System>>) type, that represents a man-machine interface generally allowing the crew to select the final approach. When such selection is performed, the on-board systems automatically coordinate to allow the aircraft to fly according to the selected final approach.

It is known that the air-traffic controllers can recommend a specific approach, particularly that use the most efficient approach aid means provided on board the aircraft or the one that is available according to planned maintenance and traffic actions, as well as meteorology. The pilot can select an approach different from that recommended, for instance if an on-board equipment the use of which is necessary for this recommended approach is out of service or if he/she wants to train him/herself to perform an other approach (with the proviso that the meteorological conditions allow it).

To select a final approach, the crew has to consult the usual approach charts (paper or electronic format). On these approach charts, the final approaches are characterized by their type (precision, no precision), the guiding means being used, and the minimal decision heights being allowed. The selection of a final approach also relies on the aircraft ability to technically implement such approach, that is the equipment provided on board the aircraft, their running state, . . .

Thus, the aircraft crew selects the final approach based on the approach charts they have in their possession, on the information given by the air-traffic controller and on the state of the on-board systems, as well as on weather, which results in an important workload. With the increasing use of GNSS (<<Global Navigation Satellite System>> technologies) such as the GPS constellation and the Galileo constellation, as well as their increases such as the SBAS, GBAS or ABAS systems, as defined by the appendix 10 OACI (International Civil Aviation Organisation) in the field of the aeronautic navigation and the arrival of new technologies as a MLS system, the number of possible approaches is still growing.

Within the scope of the present invention, the following precision approach procedures can for instance be taken into account:

• • an instrument approach procedure, relating to an instrument landing system, for instance of the ILS (<<Instrument Landing System>>) type, such as described for instance in patent FR-2,852,685;
  • an instrument approach procedure, relating to a microwave landing system, for instance of the MLS (<<Microwave Landing System>>) type; and
  • an instrument approach procedure, relating to a GPS (<<Global Positioning System>>) landing system of the GLS (<<GBAS Landing System>>) type.

Moreover, a non precision approach procedure of the RNAV type can be flown with either the SLS (<<Satellite Landing System>>) or FLS (<<FMS Landing System>>) function. The FLS function is for instance described in patents FR-2,852,683, FR-2,852,684 and FR-2,852,686.

The final approach selection thus requires from the crew to perform a number of actions, the number of which grows, as the number of available approaches on a ground increases, which induces a growing workload.

The present invention aims to overcome such drawbacks. It relates to a method for aiding the piloting of an aircraft during an approach final phase, which allows the workload of the aircraft crew to be reduced and to bring at least a partial automation and thus to favourably act on the aircraft safety.

To this end, according to the invention, said method aids the piloting of an aircraft during the approach final phase for a landing on an airport, said approach final phase being implemented according to one of a plurality of different approaches, to each one of which a particular decision height is associated, is remarkable in that:

• • a) means for allowing a member of the crew to select a landing way of the airport, that will be used upon the landing are provided;
  • b) among the possible approaches, one approach for landing on the selected landing way, which is technically adapted to be implemented by the aircraft, namely the one presenting the lowest decision height, is automatically selected; and
  • c) the thus selected approach for the activation of an approach which will effectively be implemented by the aircraft is used.

Thus, thanks to the invention, an approach among the possible approaches for landing on a previously selected way is automatically selected. This allows for the workload of the crew to be considerably reduced during the approach phase and also to increase the safety at the aircraft level.

To perform such automatic selection, the characteristics of the existing approaches that are contained in a database and more precisely of those that are likely to be implemented for the selected landing way are taken into account. Advantageously, to check if an approach is technically adapted to be implemented, it is checked:

• • if means being likely to detect signals that have to be used during this approach are available on board the aircraft and are in operational condition; and
  • if such means suitably detect said signals.

The selection according to the invention is performed by taking into account the decision height for each one of the concerned approaches. In the scope of the present invention, <<decision height>> means the height to the ground, from which the decision has to be taken latest, upon a descent, to perform or to stop the landing phase. At the decision height, the crew of the aircraft has to visually acquire the landing way. In such a case, the landing is ended in visual mode, with a manual guiding. The final guiding can also be performed automatically. In contrast, if at this decision height, the crew does not see the landing way, a go-around has to be performed so as to rise the aircraft up to a safety altitude.

The automatic selection implemented at step b) can be performed in different ways, including according to the taking into account or not of a recommended approach by Air Traffic Control ATC.

Without any recommendation of the Air Traffic Control, or without any taking into account of an existing recommendation, for instance two different variations of implementation can be provided. In a first variation of implementation, at step b):

• • b1) from a database containing the characteristics of the existing approaches, those that are associated to the selected landing way are extracted;
  • b2) among these extracted approaches, the one presenting the lowest decision height is selected; and
  • b3) it is checked if the approach selected at step b2) can be technically implemented by the aircraft, and if so, this approach is considered as representing said selected approach, whereas on the contrary if not, said steps b2) and b3) are repeated for the approach presenting the immediately higher decision height,these steps b2) and b3) being repeated in an ascending order of decision height until a selected approach likely to be implemented, representing then said selected approach is obtained.

Furthermore, in a second variation of implementation, at step b):

• • from a database containing the characteristics of the existing approaches are extracted those being associated to the selected landing way;
  • among those extracted approaches, all those that can technically be implemented by the aircraft are checked; and
  • among the extracted approaches likely to be implemented is selected that presenting the lowest decision height.

Furthermore, by taking into account a recommendation from the air traffic control, the automatic selection can also be implemented in two different ways.

In a first variation of implementation, at step b):

• • means for receiving from an air-traffic controller a recommended approach are provided;
  • from a database containing the characteristics of the existing approaches, those that are associated to the selected landing way are extracted and the approaches are sorted out by growing decision height, placing the recommended approach overhead of this sorting; and
  • in this sorting is selected the first approach likely to be technically implemented by the aircraft.

Furthermore, in a second variation of implementation, at step b):

• • means for receiving from an air traffic controller a recommended approach are provided;
  • from a database containing the characteristics of the existing approaches are extracted those being associated to the selected landing way;
  • among those extracted approaches, all those that can technically be implemented by the aircraft are checked;
  • if the recommended approach can be technically implemented, this latter is selected;
  • otherwise, among the extracted approaches likely to be implemented is selected that presenting the lowest decision height.

Furthermore, the activation implemented at step c) can also be performed in different ways, for instance:

• • by automatically activating the approach selected at step b);
  • by presenting the approach selected at step b) to a crew member of the aircraft, and by providing means allowing this crew member to manually validate this approach; and
  • by presenting approaches to a crew member of the aircraft, and by envisaging means allowing this crew member to select manually an approach.

Furthermore, if two approaches can both be technically implemented and present the same decision height, the selection of the approach can be based:

• • either on an arbitrary choice decided by the airline; or
  • on a theoretical availability relating to the approach type; or
  • on a piece of information indicating that one of those two approaches is not operating.

Furthermore, at step b), a sorting can be performed according to, moreover, at least one of the following criteria:

• • the type of approach: precision approach, non precision approach;
  • the approach means: MLS, ILS, GLS, SLS, FLS.

The present invention also relates to a device for aiding the piloting of an aircraft, particularly a transport aircraft, during an approach final phase for the landing on an airport.

According to this invention, said device comprises:

• • means for allowing a crew member of the aircraft to select a landing way of the airport that will be used during the landing;
  • means for selecting automatically, amongst the possible approaches, one approach for landing on said selected landing way, which is technically adapted to be implemented by the aircraft, that is the one presenting the lowest decision height; and
  • means for using the thus selected approach for activating one approach which will effectively be implemented by the aircraft.

The present invention can also relate to an aircraft, in particular a transport airplane, comprising a device for aiding the piloting, such as that above-mentioned.

The sole FIGURE of the appended drawing will better explain how this invention could be implemented.

This sole FIGURE is the block diagram of a device for aiding the piloting of an aircraft, according to the invention.

The device 1 according to the invention and schematically represented on the FIG. aims at aiding the piloting of an aircraft (not illustrated), particularly a transport aircraft during the approach final phase for a landing on an airport.

This approach final phase has to be implemented, in a usual way, according to one of a plurality of different approaches, to each one of which is associated a particular decision height. <<Decision height>> means the height to the ground, from which the decision has to be taken latest (upon a descent) to continue the procedure and perform a landing or to stop the landing phase. From this decision height, the landing is performed manually by the pilot who sees the landing way. The final guiding can also be performed automatically. During a precision approach with instruments for instance, flight meteorological conditions with instruments are switched to visual flight meteorological conditions, at said decision height (or above such decision height).

According to the invention, said device 1 which is on board the aircraft, comprises:

• • means 2, for instance a keyboard and/or a mouse associated to a monitor that allow a crew member of the aircraft to select a landing way of the airport, that is the way that the crew wants to use upon the landing;
  • means 3 for automatically selecting, amongst the possible approaches, one approach for the landing on said selected landing way (with the aid of the means 2), that is generally an approach:
    • which presents the lowest decision height; and
    • which is technically likely to be implemented by the aircraft; and
  • means 4 for using the thus selected approach for activating one approach which will effectively be implemented by the aircraft, as indicated hereinafter.

Thus, the means 3 of the device 1 according to the invention automatically select one approach among the possible approaches, for a landing on a way previously selected by a crew member. This allows to considerably reduce the workload of the crew during the approach phase and to increase the safety at the aircraft level.

According to the invention, said means 3 comprise at least:

• • means 5, for instance a flight management system of the FMS type, which are intended to perform the automatic selection by being in relationship, as illustrated, by a link 6, with means 7; and
  • said means 7, for instance a multimodal receiver of the MMR (<<Multi-Mode Receiver>>) mode, which are able to check if one given approach is technically likely to be implemented by the aircraft.

To be sure that one approach is technically likely to be implemented, said means 7 check for instance:

• • if usual detection means likely to detect signals which have to be used during this approach, are available on board the aircraft and are in operational condition; and
  • if these detection means suitably detect said signals, that is, particularly that said signals are effectively transmitted.

Said means 5 comprise for instance one database 8, either embedded or independent, which contains the characteristics of the existing approaches, that is particularly:

• • the type of approach: precision approach (flight with instruments) or non precision approach;
  • the usual guiding means used for the approach: MLS, ILS, GLS, SLS, FLS ; and
  • the associated decision height, that is the minimal height allowed to take the landing decision.

The device 1 can also comprise an auxiliary database containing lists of the landing ways available on airports. Thus, a crew member can select a destination airport, for instance with the aid of means 2. The device 1 thus proposes to the crew, for instance with the aid of the means 3, all the landing ways being available on this destination airport so that this crew member can select, with the aid of the means 2, the landing way which will be effectively used for landing.

The automatic selection implemented by the means 3 can be performed on different ways whether an approach recommended by the air-traffic control is taken into account or not. In a first embodiment, for which a recommended approach (being specified hereunder) is not taken into account, two variations of different implementations are provided.

In a first variation of implementation of this first embodiment:

• • the means 5 extract from the database 8 the approaches that are associated to the landing way selected by a crew member by the aid of the means 2;
  • said means 5 select amongst the thus extracted approaches, that which presents the lowest decision height; and
  • the means 7 check if the approach which presents the lowest decision height is technically likely to be implemented.

To this end, said means 7 thus check:

• • if detection means likely to detect signals which have to be used during this approach, are available on board the aircraft; and
  • if the detection means suitably detect said signals.

If this approach cannot be implemented, the means 5 are aware of that and select the approach having the decision height immediately above the preceding one, then ask again the means 7 concerning the capacity to implement this approach by aircraft, these operations being repeated up to obtaining one approach which is likely to be technically implemented by the aircraft.

Furthermore, in a second variation of implementation of this first embodiment:

• • the means 5 extract from the database 8 all the approaches which are associated to the selected landing way (with the aid of the means 2) and transmit them to the means 7;
  • said means 7 check, among such extracted approaches, all those which can be technically implemented by the aircraft and inform the means 5 about it; and
  • said means 5 select, among such extracted approaches those which are likely to be implemented, that which present the lowest decision height.

Furthermore, in a second embodiment, one approach recommended by the air traffic control is taken into account. In particular, the air traffic control can recommend one approach using the most efficient approach aid means installed on the aircraft or an approach which is available according to planned maintenance actions and traffic, as well as meteorology.

In the scope of the present invention, this recommended approach can be acquired of different ways by the device 1, that is for instance:

• • by an electronic communication between the ground and the aircraft, which can be automatically taken into account, via usual means 9 which are linked to said means 5 via a link 10; or
  • by a manual entry through the crew, by means of appropriate means, in particular said means 2 which are linked via a link 11 to said means 5; or
  • by the validation through the crew with appropriate means (for instance said means 2) of the reception of a piece of information from the ground.

In a first variation of the implementation of this second embodiment:

• • the means 5 extract from the database 8 the approaches which are associated to the selected landing way and sort the approaches by growing precision height by placing the recommended approach, received from one of the above mentioned ways, overhead of a list showing this sorting; and
  • the means 7 check if the first approach of this list (recommended approach) is likely to be implemented.

If so, the recommended approach shows the selected approach, and if not:

• • the means 7 check if the second approach of this list is likely to be implemented; and
  • if this approach cannot be implemented, means 5 are aware of it and select the following approach in the list, then ask again the means 7 about the capacity to implement this approach by aircraft, such operations being repeated up to obtaining an approach which is likely to be technically implemented by the aircraft.

Furthermore, in a second variation of implementation of this second embodiment:

• • the means 5 extract from the database 8 the approaches that are associated to the selected landing way and inform the means 7 about it; and
  • the means 7 check among these extracted approaches, all those which can be technically implemented by the aircraft and inform the means 5 about it; and
  • the means 5 select as an approach:
    • this latter, if the recommended approach can be technically implemented;
    • otherwise, the one among the extracted approaches likely to be implemented presenting the lowest decision height.

Furthermore, whatever the embodiment considered, if two approaches can both be technically implemented on board the aircraft and present the same decision height, the selection of one of the approaches can be based:

• • either on an arbitrary choice decided by the airline (through a priority order defined by an AMI (Airline Modifiable Information) parameter; or
  • on a theoretical availability relating to the approach type; or
  • on a piece of information, preferably of the NOTAM (NOtification To Air Men) type, via a ground-board communication or a crew manual entry, indicating that one of both approaches is not in operation.

Furthermore, in addition to a sorting according to the decision height, the means 5 can also perform a sorting according to at least one of the following criteria:

• • the type of approach: precision approach, non precision approach;
  • the approach means: MLS, ILS, GLS, SLS, FLS.

It should be noticed that the sorting mode to be used can be determined by the airline for instance thanks to an AMI parameter.

The approach selected by the means 3 can also be transmitted by the means 5 (via a link 13) to display means 12 which are intended to present this piece of information to the members of the aircraft crew.

Furthermore, in the scope of the present invention, the activation of an approach can be performed on different ways. The activation of an approach results in the performing of different actions, and including the entry of data concerning the approach in the flight management system so that it can help with the management of this approach, including allowing different systems of the aircraft participating to the approach to coordinate.

It should be noticed that the effective implementation of an activated approach, that is the piloting of the aircraft in accordance with this approach, is performed in a usual way. As a result, it is not further illustrated in the present description.

The means 4 of the device 1 according to the invention can be formed in order to perform different activation types.

The activation can for instance be automatically effected. In this first implementation, the usual activation means 14 intended for the activation receive from said means 5, through a link 15, the approach being automatically selected by such means 5, and said means 14 automatically activate this selected approach. This first implementation allows highly reduce the crew workload, since the selection and the activation are both automatically performed.

It is also contemplated to perform the activation by crew validation, with validation means 16, linked by a link 17 to said means 14. In this second embodiment, several logics can be defined, that is:

• • the device 1 proposes the selected approach, for instance on the displaying means 12. The pilot can accept or refuse it, through the means 16. If he refuses it, the device 1 submits a new proposal to the pilot; or
  • the device 1 proposes the selected approach by the means 5, for instance on the displaying means 12. The pilot can accept or refuse this proposal with the aid of the means 16. If he refuses it, the device 1 proposes all the approaches likely to be implemented, classified by growing decision height; or
  • the device 1 proposes all the approaches likely to be implemented, for instance on the displaying means 12, classified by growing decision height (with the overhead recommended approach, the case being), letting the pilot decide and activate the approach he desires, for instance with the help of said means 16.

When several approaches are proposed to the crew, they are presented on monitors, in particular from said displaying means 12, and are preferably sorted according to a sorting order selected by the airline, through for instance an AMI parameter. It is also contemplated, in particular for airports having a great number of different approaches, to gather the proposed approaches by type (precision approach, non precision approach) or by approach means (MLS, ILS, GLS, SLS, FLS, . . . ).

In this second embodiment, the final decision concerning the choice of the approach to be activated always pertains to the crew of the aircraft, which can thus activate a different approach from that selected by the means 3.

It should be noticed that the activation of the approach is generally performed in the flight management system of the aircraft, so that said means 14 and 16 are part of said means 5.

Claims

1. A method for aiding the piloting of an aircraft during an approach final phase for a landing on an airport, said approach final phase being implemented according to one of a plurality of different approaches, to each one of which is associated one particular decision height, a method wherein: a) means allowing a crew member to select a landing way of the airport, that will be used during the landing are provided;b) amongst the possible approaches, an approach for the landing on said selected landing way is automatically selected, that is generally one approach: which presents the lowest decision height; andwhich is technically likely to be implemented by the aircraft, by checking if detection means likely to detect signals that have to be used during this approach, are available on board the aircraft, and if these detection means suitably detect said signals; andc) the thus selected approach for the activation of an approach which will effectively be implemented by the aircraft is used.

2. The method according to claim 1, characterized in that, at step b): b1) from a database (8) containing the characteristics of the existing approaches, those that are associated to the selected landing way are selected;b2) among these extracted approaches, the one presenting the lowest decision height is selected; andb3) it is checked if the approach selected at step b2) can be technically implemented by the aircraft, and if so, this approach is considered to represent said selected approach, while on the contrary if not, said steps b2) and b3) are repeated for the approach presenting the immediately higher decision height,

3. The method according to claim 1, characterized in that, at step b): from a database (8) containing the characteristics of the existing approaches, those that are associated to the selected landing way are selected;amongst these extracted approaches, all those that can technically be implemented by the aircraft are checked andamongst the extracted approaches likely to be implemented is selected that presenting the lowest decision height.

4. The method according to claim 1, characterized in that, at step b): means for receiving from an air traffic controller a recommended approach are provided;from a database (8) containing the characteristics of the existing approaches, those being associated to the selected landing way are extracted and the approaches are sorted by growing decision height, by placing the recommended approach overhead of this sorting; andin this sorting is selected the first approach likely to be technically implemented by the aircraft.

5. The method according to claim 1, characterized in that, at step b): means for receiving from an air traffic controller a recommended approach are provided;from a database (8) containing the characteristics of the existing approaches, those that are associated to the selected landing way are selected;among these extracted approaches, all those that can technically be implemented by the aircraft are checked;if the recommended approach can be technically implemented, this latter is selected;otherwise, among these extracted approaches likely to be implemented is selected that presenting the lowest decision height.

6. The method according to claim 1, characterized in that at step c), the approach selected at step b) is automatically activated.

7. The method according to claim 1, characterized in that at step c), the approach selected at step b) is presented to a member of the aircraft crew, and means allowing the crew member to manually validate this approach are provided.

8. The method according to claim 1, characterized in that at step c), approaches are presented to a member of the aircraft crew, and means allowing this crew member to manually select an approach are provided.

9. The method according to claim 1, characterized in that, at step b), a sorting is performed according to at least one of the following criteria: the type of approach;the approach means.

10. The method according to claim 1, characterized in that, to check if an approach is technically likely to be implemented, it is checked: if the means likely to detect signals that have to be used during this approach are available on board the aircraft and are in an operational condition; andif such means suitably detect said signals.

11. A device for aiding the piloting of an aircraft during an approach final phase for a landing on an airport, said approach final phase being implemented according to one of a plurality of different approaches, to each one of which is associated a particular decision height, said device (1) comprising: means (2) allowing a crew member to select a landing way of the airport, that will be used upon landing;means (3) for automatically selecting among the possible approaches, an approach for the landing on said selected landing way, that is generally an approach: which is technically likely to be implemented by the aircraft; andwhich presents the lowest decision height,