A system and related methods for providing stall recovery guidance symbology via a head-up display (HUD) or similar avionics display element detects stall or near-stall conditions and provides symbology to guide the pilot through recovering from the stall by prioritizing pitch correction and disenga
A system and related methods for providing stall recovery guidance symbology via a head-up display (HUD) or similar avionics display element detects stall or near-stall conditions and provides symbology to guide the pilot through recovering from the stall by prioritizing pitch correction and disengagement of the autopilot system. Pitch correction symbology guides the pilot toward reducing the aircraft angle of attack and establishing level flight, while thrust recovery symbology helps the pilot control the application of thrust to avoid prolonging or reinstituting the stall. The system modifies the stall recovery symbology in response to detected changes in pitch, angle of attack, or airspeed. Once level flight has been established and stall conditions are no longer present, the system may transition out of stall recovery mode to regular inflight symbology.
대표청구항▼
1. A system for providing stall recovery symbology, comprising: at least one avionics display element configured to display at least one image associated with an aircraft;at least one controller configured to be coupled to the avionics display element and to at least one avionics system of the aircr
1. A system for providing stall recovery symbology, comprising: at least one avionics display element configured to display at least one image associated with an aircraft;at least one controller configured to be coupled to the avionics display element and to at least one avionics system of the aircraft, the controller including at least one processor configured to: detect at least one stall condition of the aircraft;detect an active status of at least one of an autopilot of the aircraft and an autothrottle of the aircraft;in response to the at least one stall condition, generate one or more symbols for display by the avionics display element, the one or more symbols including at least one of:a) a first symbol corresponding to the stall condition;b) a second symbol corresponding to the active status;c) a third symbol associated with at least one of a pitch correction of the aircraft and a roll correction of the aircraft; andd) a fourth symbol associated with a thrust correction of the aircraft;detect at least one of a pitch change of the aircraft and a roll change of the aircraft; andin response to the detected pitch change or roll change, modify the at least one second symbol. 2. The system of claim 1, wherein the avionics display element is configured to generate at least one auditory alert associated with the at least one stall condition. 3. The system of claim 1, wherein the at least one third symbol includes at least one of: a fifth symbol corresponding to at least one of a desired pitch of the aircraft and a desired roll of the aircraft; anda sixth symbol indicating at least one of a pitch correction for achieving the desired pitch and a roll correction for achieving the desired roll. 4. The system of claim 3, wherein the at least one fifth symbol includes at least one of a limited symbol, a ghosted symbol, and a dashed symbol. 5. The system of claim 3, wherein the controller is configured to: detect an achievement by the aircraft of at least one of the desired pitch and the desired roll; andin response to the detected achievement, display one or more of the at least one fourth symbol and the at least one fifth symbol as a solid symbol. 6. The system of claim 1, wherein the avionics display element includes at least one of a HDD, a HUD, a HMD, and a HWD. 7. The system of claim 1, wherein the controller is configured to detect the at least one stall condition based on at least one of: an angle of attack of the aircraft;a configuration of the aircraft; andan input received from the at least one avionics system. 8. The system of claim 1, wherein the controller is configured to: detect at least one near stall condition of the aircraft; andgenerate the one or more symbols in response to the detected near stall condition. 9. The system of claim 1, wherein the controller is configured to: detect at least one airspeed change of the aircraft; andin response to the detected airspeed change, modify the at least one fourth symbol. 10. An avionics display system, comprising: at least one display element configured to display one or more images associated with an aircraft;a controller configured to be coupled to the avionics display element and to at least one avionics system of the aircraft, the controller including at least one processor configured to detect at least one stall condition of the aircraft;detect an active status of at least one of an autopilot of the aircraft and an autothrottle of the aircraft;in response to the at least one stall condition, generate one or more symbols for display by the avionics display element, the one or more symbols including at least one of:a) a first symbol corresponding to the stall condition;b) a second symbol corresponding to the active status;c) a third symbol associated with at least one of a pitch correction of the aircraft and a roll correction of the aircraft; andd) a fourth symbol associated with a thrust correction of the aircraft;detect at least one of a pitch change of the aircraft and a roll change of the aircraft;in response to the detected pitch change or roll change, modify the at least one third symbol;detect at least one airspeed change of the aircraft; andin response to the detected airspeed change, modify the at least one fourth symbol;the avionics display element configured to generate at least one auditory alert associated with the stall condition. 11. The avionics display system of claim 10, wherein the avionics display element includes at least one of a HDD, a HUD, a HMD, and a HWD. 12. The avionics display system of claim 10, wherein the controller is configured to detect the at least one stall condition based on at least one of: an angle of attack of the aircraft;a configuration of the aircraft; andan input received from the at least one avionics system. 13. The method of claim 10, wherein detecting, via a controller of an avionics display system, at least one stall condition of an aircraft includes: detecting, via a controller of at least one of a HDD, a HUD, a HMD, and a HWD, at least one stall condition of an aircraft. 14. A method for providing stall recovery symbology, the method comprising: detecting, via a controller of an avionics display system, at least one stall condition of an aircraft;detecting, via the controller, an active status of at least one of an autopilot of the aircraft and an autothrottle of the aircraft;displaying, via the avionics display system, at least one first symbol corresponding to the stall condition;displaying, via the avionics display system, at least one second symbol corresponding to the active status;displaying, via the avionics display system, at least one third symbol associated with at least one of a pitch correction and a roll correction of the aircraft;detecting, via the controller, at least one of a pitch change of the aircraft and a roll change of the aircraft; andin response to the detected pitch change or roll change, modifying, via the avionics display system, the at least one third symbol. 15. The method of claim 14, wherein detecting, via a controller of an avionics display system, at least one stall condition of an aircraft includes: detecting, via a controller of an avionics display system, at least one stall condition of an aircraft based on at least one of an angle of attack of the aircraft;a configuration of the aircraft; andan input received from an avionics system coupled to the controller. 16. The method of claim 14, wherein detecting, via a controller of an avionics display system, at least one stall condition of an aircraft includes: detecting, via a controller of an avionics display system, at least one near-stall condition of an aircraft. 17. The method of claim 14, wherein displaying, via the avionics display system, at least one first symbol corresponding to the stall condition includes: generating, via the avionics display system, at least one auditory warning associated with the stall condition. 18. The method of claim 14, wherein displaying, via the avionics display system, at least one third symbol associated with at least one of a pitch correction and a roll correction of the aircraft includes: displaying, via the avionics display system, at least one third symbol associated with at least one of a desired pitch of the aircraft, a pitch correction for achieving the desired pitch, a desired roll of the aircraft, and a roll correction for achieving the desired roll. 19. The method of claim 14, wherein in response to the detected pitch change or roll change, modifying, via the avionics display system, the at least one third symbol includes: in response to the detected pitch change or roll change, displaying, via the avionics display system, at least one fourth symbol associated with a thrust correction of the aircraft. 20. The method of claim 19, further comprising: detecting, via the controller, at least one airspeed change of the aircraft;in response to the detected airspeed change, modifying, via the avionics display system, the at least one fourth symbol.
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이 특허에 인용된 특허 (21)
Alwin, Steve F.; Liffrig, Ronald Fritz; Sandnas, Mathew L., Air data stall protection system.
Kelly Brian D. (Redmond WA) Veitengruber James E. (Bellevue WA) Mulally Alan R. (Woodinville WA), Apparatus and methods for generating a stall warning margin on an aircraft attitude indicator display.
Kelly Brian D. (Redmond WA) Stemer Paul (Seattle WA) Wiedemann John (Bonney Lake WA) Bernstein Arthur D. (Renton WA) Myers Robert J. (Everett WA), TCAS II pitch guidance control law and display symbol.
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