Point-and-shoot automatic landing system and method
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G05D-001/10
B64D-043/00
G05D-001/04
G05D-001/00
출원번호
US-0237433
(2016-08-15)
등록번호
US-9891632
(2018-02-13)
발명자
/ 주소
Irwin, Joseph G.
Kashawlic, Bryan E.
Brown, Brandon R.
출원인 / 주소
The Boeing Company
대리인 / 주소
Rubio-Campos, Francisco A.
인용정보
피인용 횟수 :
0인용 특허 :
4
초록▼
A point-and-shoot automatic landing system (P-A-S ALS) realizes safety and mission effectiveness benefits in vertical takeoff and landing (VTOL) aircraft, allowing a pilot, using an inceptor device, to select an aim point with an aiming device providing visual indication of the aim point. Once a fli
A point-and-shoot automatic landing system (P-A-S ALS) realizes safety and mission effectiveness benefits in vertical takeoff and landing (VTOL) aircraft, allowing a pilot, using an inceptor device, to select an aim point with an aiming device providing visual indication of the aim point. Once a flight path is computed the pilot may allow the P-A-S ALS to automatically control the flight to touchdown. A suite of ranging devices determines the relative position of the aircraft to the selected aim point and an approach profile guidance algorithm computes the flight path. One or more devices provide confirmation that automatically controlled flight to the selected aim point is achievable. The P-A-S ALS is configured to allow termination of the controlled flight path at any time and selection of a new aim point through the inceptor device.
대표청구항▼
1. A point-and-shoot automatic landing system (“P-A-S ALS”) for use in an aircraft, the P-A-S ALS comprising: an inceptor device in signal communication with a pilot of the aircraft, configured to receive force inputs from the pilot that command movement and selection of an aim point, wherein a sele
1. A point-and-shoot automatic landing system (“P-A-S ALS”) for use in an aircraft, the P-A-S ALS comprising: an inceptor device in signal communication with a pilot of the aircraft, configured to receive force inputs from the pilot that command movement and selection of an aim point, wherein a selected aim point is generated by the pilot;an aiming device configured to display to the pilot an aim point symbol superimposed upon an internal display or a view outside the aircraft;one or more ranging devices configured to determine a distance, azimuth, and altitude of the aircraft relative to the selected aim point;an approach profile guidance algorithm in signal communication with the inceptor device, the aiming device, and the one or more ranging devices, whereby the approach profile guidance algorithm is configured to generate a plurality of calculated approach profiles comprising approach profile commands that include distance data, aircraft speed data, aircraft elevation data, and aircraft azimuth data relative to the selected aim point;an autopilot system in signal communication with the approach profile guidance algorithm, wherein the autopilot system is configured to automatically control flight of the aircraft to the selected aim point utilizing the approach profile commands of the plurality of calculated approach profiles; andone or more devices that communicate to the pilot information about the selected aim point and status of the plurality of calculated approach profiles to the selected aim point. 2. The P-A-S ALS of claim 1, wherein the inceptor device is selected from the group consisting of the primary flight controls of an aircraft, a dedicated secondary control joystick, a trackball, a mouse, and a 4-way switch to slew the selected aim point. 3. The P-A-S ALS of claim 2, wherein the plurality of approach profile commands comprises horizontal commands updated in real-time, including a commanded groundspeed along the calculated approach profile to the selected aim point. 4. The P-A-S ALS of claim 3, wherein the plurality of approach profile commands further comprises vertical commands updated in real-time, comprising a commanded vertical speed and/or altitude along the calculated approach profile to the selected aim point. 5. The P-A-S ALS of claim 1, where the one or more ranging devices are selected from the group consisting of laser range finders, radar range finders, radar altimeters limited to operation over flat terrain, radar altimeters combined with digital terrain elevation data, and a combination of any of the foregoing. 6. The P-A-S ALS of claim 1, wherein the aiming device is selected from the group consisting of a gimbaled laser pointer viewable outside the aircraft, a camera directed at the aim point for display inside the aircraft, and a mark superimposed on the internal display or the view outside the aircraft. 7. The P-A-S ALS of claim 6, wherein the display is a multi-function display (MFD). 8. The P-A-S ALS of claim 7, wherein information presented on the display is obtained from the group consisting of on-board aircraft sensors, on-board aircraft radars, on-board aircraft cameras, on-board aircraft databases, and data links to off-board databases. 9. The P-A-S ALS of claim 1, wherein the force inputs comprise selection of the aim point displayed by the aiming device. 10. The P-A-S ALS of claim 1, wherein the force inputs comprise flight controls that allow the pilot to change the selected aim point at any time or to terminate the automatically-controlled flight of the aircraft along the calculated approach profile. 11. A method of automatically controlling an approach profile of an aircraft to a landing at an aim point, the method comprising: selecting the aim point from information displayed inside or viewable outside the aircraft using an aiming device to provide a selected aim point;utilizing data from one or more ranging devices and one or more displays of the aircraft to determine distance, azimuth, and elevation of the aircraft relative to the selected aim point;automatically calculating the approach profile comprising horizontal and vertical commands for controlling flight of the aircraft along the approach profile to the selected aim point and generating a calculated approach profile; andtransmitting the calculated approach profile to an autopilot system to automatically control flight of the aircraft to a desired speed and altitude at the selected aim point. 12. The method of automatically controlling an approach profile of an aircraft of claim 11, where the one or more ranging devices are selected from the group consisting of laser range finders, radar range finders, radar altimeters limited to operation over flat terrain, radar altimeters combined with digital terrain elevation data, and a combination of any of the foregoing. 13. The method of automatically controlling an approach profile of an aircraft of claim 11, wherein information presented on a display of the one or more displays of the aircraft is obtained from the group consisting of on-board aircraft sensors, on-board aircraft cameras, on-board aircraft radars, on-board aircraft databases, and data links connected to off-board databases. 14. The method of automatically controlling an approach profile of an aircraft of claim 11, wherein the calculated approach profile comprises a plurality of horizontal and vertical commands updated in real-time. 15. The method of automatically controlling an approach profile of an aircraft of claim 11, wherein selecting the aim point comprises: displaying to a pilot of the aircraft an aim point symbol superimposed upon a display of the one or more displays or a view outside the aircraft; andmoving the aim point symbol to a desired aim point on the display to select the desired aim point. 16. The method of automatically controlling an approach profile of an aircraft of claim 15, wherein selecting the aim point further comprises: determining that there is no achievable approach profile to the selected aim point for the aircraft; andproviding the pilot with warnings that there is no achievable approach profile for the aircraft. 17. The method of automatically controlling an approach profile of an aircraft of claim 11, further including the steps of: terminating the automatically-controlled flight of the aircraft along the calculated approach profile; andselecting a second aim point from the information displayed on a display of the one or more displays. 18. The method of automatically controlling an approach profile of an aircraft of claim 11, wherein a display of the one or more displays is a multi-function display (MFD). 19. The method of automatically controlling an approach profile of an aircraft of claim 11, wherein the aiming device is a symbol on a display of the one or more displays or a view outside the aircraft that may be manipulated by a pilot using primary flight controls of the aircraft. 20. The method of automatically controlling an approach profile of an aircraft of claim 11, wherein the calculated approach profile may be controlled to a landing at the selected aim point, to hovering above the selected aim point, or to tracking a moving aim point.
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