Methods and apparatus for presenting automatic flight control system data onboard an aircraft
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B65D-045/00
G05D-001/00
G05D-001/08
B64D-045/00
출원번호
US-0397843
(2017-01-04)
등록번호
US-10150573
(2018-12-11)
발명자
/ 주소
Wong, Jonathan Matthew
Ryan, Justin
Gribble, Dave
Kropp, Stephen Daniel
출원인 / 주소
HONEYWELL INTERNATIONAL INC.
대리인 / 주소
Lorenz & Kopf, LLP
인용정보
피인용 횟수 :
0인용 특허 :
8
초록▼
A method for presenting flight control system data onboard an aircraft is provided. The method detects a current operating mode of an automatic flight control system; determines a current aircraft operation, based on the current operating mode; identifies, based on the current aircraft operation, po
A method for presenting flight control system data onboard an aircraft is provided. The method detects a current operating mode of an automatic flight control system; determines a current aircraft operation, based on the current operating mode; identifies, based on the current aircraft operation, potential aircraft operations associated with a plurality of operating modes of the automatic flight control system, and wherein the plurality of operating modes comprises the current operating mode; presents, via a display device onboard the aircraft, a first plain-text description of the current operating mode and the current aircraft operation; and presents, via the display device, a plurality of plain-text descriptions, wherein each of the plain-text descriptions is associated with a respective one of the potential aircraft operations.
대표청구항▼
1. A method for presenting flight control system data onboard an aircraft, the method comprising: detecting a current operating mode of an automatic flight control system, the current operating mode comprising a currently-selected method of operation for autopilot to control at least one of a latera
1. A method for presenting flight control system data onboard an aircraft, the method comprising: detecting a current operating mode of an automatic flight control system, the current operating mode comprising a currently-selected method of operation for autopilot to control at least one of a lateral axis and a vertical axis of the aircraft, wherein the automatic flight control system comprises the autopilot;determining a current aircraft operation, based on the current operating mode, wherein the current aircraft operation comprises at least one of climbing, descending, and turning, and wherein each operating mode of the autopilot is associated with one or more aircraft operations;identifying, based on the current aircraft operation, a potential aircraft operation associated with one of a plurality of operating modes of the automatic flight control system, by: identifying a current attitude and position of the aircraft, via the automatic flight control system;receiving a user input selection of the one of the plurality of operating modes, via a user interface;determining a guidance cue based on the user input selection, the current attitude and position, and the current aircraft operation; andidentifying one or more necessary actions for the aircraft to comply with the guidance cue, wherein the potential aircraft operation comprises the one or more necessary actions, and wherein the current aircraft operation and the potential aircraft operation are configured to execute sequentially to comply with the guidance cue;presenting an autopilot mode status annunciation comprising a first plain-text description of the current operating mode and the current aircraft operation, via a display device onboard the aircraft, wherein the first plain-text description augments a traditional acronym-based mode annunciator; andin response to receiving the user input selection, presenting an engagement confirmation comprising a second plain-text description associated with the potential aircraft operation, via the display device, wherein the second plain-text description communicates that the potential aircraft operation is a next operation in sequence subsequent to the current aircraft operation;wherein the autopilot mode status annunciation and the engagement confirmation comprise English-language text in sentence form, and wherein the autopilot mode status annunciation and the engagement confirmation do not include aviation jargon, aviation acronyms, or aviation abbreviations. 2. The method of claim 1, further comprising: establishing a communication connection to the automatic flight control system onboard an aircraft; anddetecting the current operating mode via the communication connection. 3. The method of claim 1, wherein the display device comprises a touch-screen control user interface; and wherein the method further comprises: receiving a user input selection of one of a plurality of operating modes for the automatic flight control system, wherein the one of the plurality of operating modes is associated with the current operation; andidentifying the current operation based on the user input selection, wherein the current operation is associated with a current operating mode, and wherein the plurality of operating modes comprises the current operating mode. 4. The method of claim 3, further comprising: presenting one of the text descriptions in close proximity to an associated user selectable option, via the touch-screen control user interface; andwherein the associated user selectable option represents the current operating mode. 5. A system for presenting flight control system data onboard an aircraft, the system comprising: a system memory element;a flight control system, configured to operate according to a current operating mode of the aircraft;a display device, configured to present graphical elements and text onboard the aircraft; andat least one processor communicatively coupled to the system memory element, the flight control system, and the display device, the at least one processor configured to: identify the current operating mode of the aircraft, the current operating mode comprising a currently-selected method of operation for autopilot to control at least one of a lateral axis and a vertical axis of the aircraft, wherein the flight control system comprises the autopilot;determine a current aircraft operation, based on the current operating mode, wherein the current aircraft operation comprises at least one of climbing, descending, and turning, and wherein each operating mode of the autopilot is associated with one or more aircraft operations;identify, based on the current aircraft operation, a potential aircraft operation associated with one of a plurality of operating modes of the flight control system, by: identifying a current attitude and position of the aircraft, via the flight control system;receiving a user input selection of the one of the plurality of operating modes, via a user interface;determining a guidance cue based on the user input selection, the current attitude and position, and the current aircraft operation; andidentifying one or more necessary actions for the aircraft to comply with the guidance cue, wherein the potential aircraft operation comprises the one or more necessary actions, and wherein the current aircraft operation and the potential aircraft operation are configured to execute sequentially to comply with the guidance cue;present an autopilot mode status annunciation comprising a first plain-text description of the current operating mode and the current aircraft operation, via the display device, wherein the first plain-text description augments a traditional acronym-based mode annunciator; andin response to receiving the user input selection, present an engagement confirmation comprising a second plain-text description associated with the potential aircraft operation, via the display device, wherein the second plain-text description communicates that the potential aircraft operation is a next operation in sequence subsequent to the current aircraft operation;wherein the autopilot mode status annunciation and the engagement confirmation comprise English-language text in sentence form, and wherein the autopilot mode status annunciation and the engagement confirmation do not include aviation jargon, aviation acronyms, or aviation abbreviations. 6. The system of claim 5, further comprising: a touch-screen control user interface, configured to receive user input selections of one of a plurality of operating modes for the flight control system, wherein the plurality of operating modes comprises the current operating mode;wherein the at least one processor is further configured to identify the current operating mode based on one of the user input selections. 7. The system of claim 6, wherein the at least one processor is further configured to present one of the plurality of plain-text descriptions in close proximity to an associated user selectable option; and wherein the associated user selectable option represents the one of the plurality of operating modes. 8. The system of claim 5, wherein the current operating mode comprises one of a lateral mode and a vertical mode. 9. A non-transitory, computer-readable medium containing instructions thereon, which, when executed by a processor, perform a method comprising: based on a current operating mode of an automatic flight control system of an aircraft, and a current aircraft operation, identifying a potential next operation in sequence for the automatic flight control system of the aircraft, by: identifying a current attitude and position of the aircraft, via the automatic flight control system;receiving a user input selection of a second operating mode, via a user interface;determining a guidance cue based on the user input selection, the current attitude and position, and the current aircraft operation; andidentifying one or more necessary actions for the aircraft to comply with the guidance cue, wherein the potential aircraft operation comprises the one or more necessary actions, and wherein the current aircraft operation and the potential next operation are configured to execute sequentially to comply with the guidance cue;wherein the current operating mode comprises a currently-selected method of operation for autopilot to control at least one of a lateral axis and a vertical axis of the aircraft, wherein the automatic flight control system comprises the autopilot;wherein the current aircraft operation comprises at least one of climbing, descending, and turning, and wherein each operating mode of the autopilot is associated with one or more aircraft operations;presenting an autopilot mode status annunciation comprising a first plain-text description of the current operating mode and the current aircraft operation, via a display device onboard the aircraft, wherein the first plain-text description augments a traditional acronym-based mode annunciator; andin response to receiving the user input selection, presenting a second plain-text description of the potential next operation, via the display device, wherein the second plain-text description communicates that the potential next operation follows the current aircraft operation in sequence;wherein the autopilot mode status annunciation and the engagement confirmation comprise English-language text in sentence form, and wherein the autopilot mode status annunciation and the engagement confirmation do not include aviation jargon, aviation acronyms, or aviation abbreviations. 10. The non-transitory, computer-readable medium of claim 9, wherein the method further comprises: establishing a communication connection to a flight control system onboard an aircraft; andidentifying the current operation via the communication connection. 11. The non-transitory, computer-readable medium of claim 9, wherein the method further comprises identifying a current operating mode of an aircraft, via the automatic flight control system; and wherein the current operation is determined based on the current operating mode. 12. The non-transitory, computer-readable medium of claim 11, wherein the current operating mode comprises one of a lateral mode and a vertical mode. 13. The non-transitory, computer-readable medium of claim 9, wherein the display device comprises a touch-screen control user interface; and wherein the method further comprises: receiving a user input selection of one of a plurality of operating modes for the flight control system, wherein the one of the plurality of operating modes is associated with the current operation; andidentifying a current operation based on the user input selection, wherein the current operation is associated with a current operating mode, and wherein the plurality of operating modes comprises the current operating mode. 14. The non-transitory, computer-readable medium of claim 13, wherein the method further comprises: presenting one of the text descriptions in close proximity to an associated user selectable option, via the touch-screen control user interface; andwherein the associated user selectable option represents the current operating mode.
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이 특허에 인용된 특허 (8)
Toumazet, Jean-Jacques; Vadillo, Mélanie, Aircraft display management system for flight envelope protection.
Chandrashekarappa, Mohan Gowda; Shambulingappa, Babitha Jajur, Display systems and methods for providing displays having an integrated autopilot functionality.
Shapiro, Geoffrey A.; Etherington, Timothy J.; Smith-Velazquez, Laura Maxine, Simplified auto-flight system coupled with a touchscreen flight control panel.
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