초록 ▼

An autothrottle retard initiation method includes receiving an aircraft's ground speed, receiving the aircraft's vertical speed, determining autothrottle retard initiation height based on the aircraft's ground speed, the aircraft's vertical speed, and an aircraft vertical landing speed factor, recei

An autothrottle retard initiation method includes receiving an aircraft's ground speed, receiving the aircraft's vertical speed, determining autothrottle retard initiation height based on the aircraft's ground speed, the aircraft's vertical speed, and an aircraft vertical landing speed factor, receiving the aircraft's height above ground, and initiating autothrottle retard when the aircraft's height above ground and the autothrottle retard initiation height are equal.

대표청구항 ▼

1. An autothrottle retard initiation method comprising: receiving an aircraft ground speed,receiving an aircraft vertical speed,determining an autothrottle retard initiation height based on the aircraft ground speed, the aircraft vertical speed, and an aircraft vertical landing speed factor,receivin

1. An autothrottle retard initiation method comprising: receiving an aircraft ground speed,receiving an aircraft vertical speed,determining an autothrottle retard initiation height based on the aircraft ground speed, the aircraft vertical speed, and an aircraft vertical landing speed factor,receiving an aircraft height above ground,initiating autothrottle retard when the aircraft height above ground and the autothrottle retard initiation height are equal, andreducing airspeed at a rate not greater than two knots per second after initiating autothrottle retard. 2. The method of claim 1, wherein determining the autothrottle retard initiation height comprises calculating an integral of the aircraft vertical landing speed factor from throttle retard initiation to touchdown. 3. The method of claim 1, wherein the aircraft vertical landing speed factor represents a predetermined aircraft trajectory from the autothrottle retard initiation height to aircraft touchdown. 4. The method of claim 3, wherein the aircraft vertical landing speed factor at time t is expressed as GS⁡(t)⁢VSAPGSAPwhere GS(t) represents an aircraft ground speed factor at time t, VSAP represents an aircraft vertical speed during approach, andGSAP represents an aircraft ground speed during approach. 5. The method of claim 3, wherein the aircraft vertical landing speed factor at time t is expressed as GS(t)tan(FPA(t))where GS(t) represents an aircraft ground speed factor at time t and FPA(t) represents an aircraft flight path angle factor at time t. 6. The method of claim 1, wherein receiving the aircraft vertical speed comprises receiving an aircraft inertial vertical speed. 7. The method of claim 1, wherein receiving the aircraft ground speed comprises receiving an instantaneous aircraft ground speed. 8. The method of claim 1, wherein receiving the aircraft ground speed comprises receiving an average aircraft ground speed. 9. The method of claim 1, wherein receiving the aircraft vertical landing speed factor comprises receiving an aircraft weight. 10. An autothrottle retard initiation system comprising: a first module that receives an aircraft ground speed,a second module that receives an aircraft vertical speed,a third module that determines an autothrottle retard initiation height based on the aircraft ground speed, the aircraft vertical speed, and an aircraft vertical landing speed factor,a fourth module that receives an aircraft height above ground,a fifth module that initiates autothrottle retard when the aircraft height above ground and the autothrottle retard initiation height are equal, anda sixth module that reduces airspeed at a rate not greater than two knots per second after the fifth module initiates autothrottle retard. 11. The system of claim 10, wherein the third module calculates an integral of the aircraft vertical landing speed factor from throttle retard initiation to touchdown. 12. The system of claim 10, wherein the aircraft vertical landing speed factor represents a predetermined aircraft trajectory from the autothrottle retard initiation height to aircraft touchdown. 13. The system of claim 12, wherein the aircraft vertical landing speed factor at time t is expressed as GS⁡(t)⁢VSAPGSAPwhere GS(t) represents an aircraft ground speed factor at time t, VSAP represents an aircraft vertical speed during approach, andGSAP represents an aircraft ground speed during approach. 14. The system of claim 12, wherein the aircraft vertical landing speed factor at time t is expressed as GS(t)tan(FPA(t))where GS(t) represents an aircraft ground speed factor at time t and FPA(t) represents an aircraft flight path angle factor at time t. 15. The system of claim 10, wherein the second module receives an aircraft inertial vertical speed. 16. The system of claim 10, wherein the first module receives an instantaneous aircraft ground speed. 17. The system of claim 10, wherein the first module receives an average aircraft ground speed. 18. The system of claim 10, wherein the aircraft vertical landing speed factor comprises an aircraft weight. 19. An autothrottle retard initiation method comprising: receiving an aircraft ground speed,determining an autothrottle retard initiation height based on the aircraft ground speed and an autothrottle retard initiation height factor,receiving an aircraft height above ground,initiating autothrottle retard when the aircraft height above ground and the autothrottle retard initiation height are equal, andreducing airspeed at a rate not greater than two knots per second after initiating autothrottle retard. 20. The method of claim 19, wherein the autothrottle retard initiation height factor is expressed as GSAP2-GSTD22⁢AGS⁢tan⁡(F⁢⁢P⁢⁢A)where GS represents aircraft ground speed, GSTD represents aircraft ground speed at touchdown,AGS represents a constant aircraft inertial ground speed deceleration, andFPA represents a constant aircraft flight path angle. 21. An autothrottle retard initiation system comprising: a first module that receives an aircraft ground speed,a second module that determines an autothrottle retard initiation height based on the aircraft ground speed and an autothrottle retard initiation height factor,a third module that receives an aircraft height above ground,a fourth module that initiates autothrottle retard when the aircraft height above ground and the autothrottle retard initiation height are equal, anda fifth module that reduces airspeed at a rate not greater than two knots per second after the fourth module initiates autothrottle retard. 22. The method of claim 21, wherein the autothrottle retard initiation height factor is expressed as GSAP2-GSTD22⁢AGS⁢tan⁡(F⁢⁢P⁢⁢A)where GS represents aircraft ground speed, GSTD represents aircraft ground speed at touchdown,AGS represents a constant aircraft inertial ground speed deceleration, andFPA represents a constant aircraft flight path angle. 23. An autothrottle retard initiation method comprising: receiving an aircraft weight,receiving an aircraft ground speed,receiving an aircraft height above ground,determining an autothrottle retard initiation height based on the aircraft weight and aircraft ground speed,initiating autothrottle retard when the aircraft height above ground and the autothrottle retard initiation height are equal, andreducing airspeed at a rate not greater than two knots per second after initiating autothrottle retard. 24. The method of claim 23 comprising: discontinuing autothrottle retard when airspeed has decreased by ten knots or greater after initiating autothrottle retard. 25. The method of claim 23 comprising: preventing throttle advancement after initiating autothrottle retard. 26. The method of claim 23 comprising: identifying contact between aircraft landing gear and a runway and retarding aircraft throttles to idle after contact between the aircraft landing gear and the runway. 27. The method of claim 23 wherein receiving the aircraft weight comprises at least one of receiving manually entered data, receiving data from an aircraft sensor, and receiving data from an external sensor. 28. An autothrottle retard initiation system comprising: a first module that receives an aircraft weight,a second module that receives an aircraft ground speed,a third module that receives an aircraft height above ground,a fourth module that determines an autothrottle retard initiation height based on inputs received from the first module and the second module,a fifth module that initiates autothrottle retard when the aircraft height above ground and the autothrottle retard initiation height are equal, anda sixth module that reduces airspeed at a rate not greater than two knots per second after the fifth module initiates autothrottle retard. 29. The system of claim 28 comprising a seventh module that discontinues autothrottle retard when airspeed has decreased by at ten knots or greater after the fifth module initiates autothrottle retard. 30. The system of claim 28 comprising an eighth module that prevents throttle advancement after the fifth module initiates autothrottle retard. 31. The system of claim 28 comprising a ninth module that identifies contact between aircraft landing gear and a runway and a tenth module that retards aircraft throttles to idle when the ninth module identifies contact between the aircraft landing gear and the runway. 32. The system of claim 28 wherein the first module receives the aircraft weight through at least one of manually entered data, data from an aircraft sensor, and data from an external sensor. 33. An autothrottle retard initiation method comprising: receiving an aircraft ground speed,receiving an aircraft vertical speed,determining an autothrottle retard initiation height based on the aircraft ground speed, the aircraft vertical speed, and an aircraft vertical landing speed factor,receiving an aircraft height above ground,initiating autothrottle retard when the aircraft height above ground and the autothrottle retard initiation height are equal, anddiscontinuing autothrottle retard when airspeed has decreased by ten knots or greater after initiating autothrottle retard. 34. The method of claim 33, wherein determining the autothrottle retard initiation height comprises calculating an integral of the aircraft vertical landing speed factor from throttle retard initiation to touchdown. 35. The method of claim 33, wherein the aircraft vertical landing speed factor represents a predetermined aircraft trajectory from the autothrottle retard initiation height to aircraft touchdown. 36. The method of claim 35, wherein the aircraft vertical landing speed factor at time t is expressed as GS⁡(t)⁢VSAPGSAPwhere GS(t) represents an aircraft ground speed factor at time t, VSAP represents an aircraft vertical speed during approach, andGSAP represents an aircraft ground speed during approach. 37. The method of claim 35, wherein the aircraft vertical landing speed factor at time t is expressed as GS(t)tan(FPA(t))where GS(t) represents an aircraft ground speed factor at time t and FPA(t) represents an aircraft flight path angle factor at time t. 38. The method of claim 33, wherein receiving the aircraft vertical speed comprises receiving an aircraft inertial vertical speed. 39. The method of claim 33, wherein receiving the aircraft ground speed comprises receiving an instantaneous aircraft ground speed. 40. The method of claim 33, wherein receiving the aircraft ground speed comprises receiving an average aircraft ground speed. 41. The method of claim 33, wherein receiving the aircraft vertical landing speed factor comprises receiving an aircraft weight. 42. An autothrottle retard initiation system comprising: a first module that receives an aircraft ground speed,a second module that receives an aircraft vertical speed,a third module that determines an autothrottle retard initiation height based on the aircraft ground speed, the aircraft vertical speed, and an aircraft vertical landing speed factor,a fourth module that receives an aircraft height above ground,a fifth module that initiates autothrottle retard when the aircraft height above ground and the autothrottle retard initiation height are equal, anda sixth module that discontinues autothrottle retard when airspeed has decreased by ten knots or greater after the fifth module initiates autothrottle retard. 43. The system of claim 42, wherein the third module calculates an integral of the aircraft vertical landing speed factor from throttle retard initiation to touchdown. 44. The system of claim 42, wherein the aircraft vertical landing speed factor represents a predetermined aircraft trajectory from the autothrottle retard initiation height to aircraft touchdown. 45. The system of claim 44, wherein the aircraft vertical landing speed factor at time t is expressed as GS⁡(t)⁢VSAPGSAPwhere GS(t) represents an aircraft ground speed factor at time t, VSAP represents an aircraft vertical speed during approach, andGSAP represents an aircraft ground speed during approach. 46. The system of claim 44, wherein the aircraft vertical landing speed factor at time t is expressed as GS(t)tan(FPA(t))where GS(t) represents an aircraft ground speed factor at time t and FPA(t) represents an aircraft flight path angle factor at time t. 47. The system of claim 42, wherein the second module receives an aircraft inertial vertical speed. 48. The system of claim 42, wherein the first module receives an instantaneous aircraft ground speed. 49. The system of claim 42, wherein the first module receives an average aircraft ground speed. 50. The system of claim 42, wherein the aircraft vertical landing speed factor comprises an aircraft weight. 51. An autothrottle retard initiation method comprising: receiving an aircraft ground speed,determining an autothrottle retard initiation height based on the aircraft ground speed and an autothrottle retard initiation height factor,receiving an aircraft height above ground,initiating autothrottle retard when the aircraft height above ground and the autothrottle retard initiation height are equal, anddiscontinuing autothrottle retard when airspeed has decreased by ten knots or greater after initiating autothrottle retard. 52. The method of claim 51, wherein the autothrottle retard initiation height factor is expressed as GSAP2-GSTD22⁢⁢AGS⁢tan⁡(FPA)where GS represents aircraft ground speed, GSTD represents aircraft ground speed at touchdown,AGS represents a constant aircraft inertial ground speed deceleration, andFPA represents a constant aircraft flight path angle. 53. An autothrottle retard initiation system comprising: a first module that receives an aircraft ground speed,a second module that determines an autothrottle retard initiation height based on the aircraft ground speed and an autothrottle retard initiation height factor,a third module that receives an aircraft height above ground,a fourth module that initiates autothrottle retard when the aircraft height above ground and the autothrottle retard initiation height are equal, anda fifth module that discontinues autothrottle retard when airspeed has decreased by ten knots or greater after a fourth module initiates autothrottle retard. 54. The method of claim 53, wherein the autothrottle retard initiation height factor is expressed as GSAP2-GSTD22⁢⁢AGS⁢tan⁡(FPA)where GS represents aircraft ground speed, GSTD represents aircraft ground speed at touchdown,AGS represents a constant aircraft inertial ground speed deceleration, andFPA represents a constant aircraft flight path angle. 55. An autothrottle retard initiation method comprising: receiving an aircraft weight,receiving an aircraft ground speed,receiving an aircraft height above ground,determining an autothrottle retard initiation height based on the aircraft weight and aircraft ground speed,initiating autothrottle retard when the aircraft height above ground and the autothrottle retard initiation height are equal, anddiscontinuing autothrottle retard when airspeed has decreased by ten knots or greater after initiating autothrottle retard. 56. The method of claim 55 comprising: preventing throttle advancement after initiating autothrottle retard. 57. The method of claim 55 comprising: identifying contact between aircraft landing gear and a runway and retarding aircraft throttles to idle after contact between the aircraft landing gear and the runway. 58. The method of claim 55 wherein receiving the aircraft weight comprises at least one of receiving manually entered data, receiving data from an aircraft sensor, and receiving data from an external sensor. 59. An autothrottle retard initiation system comprising: a first module that receives an aircraft weight,a second module that receives an aircraft ground speed,a third module that receives an aircraft height above ground,a fourth module that determines an autothrottle retard initiation height based on inputs received from the first module and the second module,a fifth module that initiates autothrottle retard when the aircraft height above ground and the autothrottle retard initiation height are equal, anda sixth module that discontinues autothrottle retard when airspeed has decreased by ten knots or greater after the fifth module autothrottle retard. 60. The system of claim 59 comprising a seventh module that prevents throttle advancement after the fifth module initiates autothrottle retard. 61. The system of claim 59 comprising an eight module that identifies contact between aircraft landing gear and a runway and a ninth module that retards aircraft throttles to idle when the eighth module identifies contact between the aircraft landing gear and the runway. 62. The system of claim 59 wherein the first module receives the aircraft weight through at least one of manually entered data, data from an aircraft sensor, and data from an external sensor. 63. An autothrottle retard initiation method comprising: receiving an aircraft ground speed,receiving an aircraft vertical speed,determining an autothrottle retard initiation height based on the aircraft ground speed, the aircraft vertical speed, and an aircraft vertical landing speed factor,receiving an aircraft height above ground,initiating autothrottle retard when the aircraft height above ground and the autothrottle retard initiation height are equal, andpreventing throttle advancement after initiating autothrottle retard. 64. The method of claim 63, wherein determining the autothrottle retard initiation height comprises calculating an integral of the aircraft vertical landing speed factor from throttle retard initiation to touchdown. 65. The method of claim 63, wherein the aircraft vertical landing speed factor represents a predetermined aircraft trajectory from the autothrottle retard initiation height to aircraft touchdown. 66. The method of claim 65, wherein the aircraft vertical landing speed factor at time t is expressed as GS⁡(t)⁢VSAPGSAPwhere GS(t) represents an aircraft ground speed factor at time t, VSAP represents an aircraft vertical speed during approach, andGSAP represents an aircraft ground speed during approach. 67. The method of claim 65, wherein the aircraft vertical landing speed factor at time t is expressed as GS(t)tan(FPA(t))where GS(t) represents an aircraft ground speed factor at time t and FPA(t) represents an aircraft flight path angle factor at time t. 68. The method of claim 65, wherein receiving the aircraft vertical speed comprises receiving an aircraft inertial vertical speed. 69. The method of claim 65, wherein receiving the aircraft ground speed comprises receiving an instantaneous aircraft ground speed. 70. The method of claim 65, wherein receiving the aircraft ground speed comprises receiving an average aircraft ground speed. 71. The method of claim 65, wherein receiving the aircraft vertical landing speed factor comprises receiving an aircraft weight. 72. An autothrottle retard initiation system comprising: a first module that receives an aircraft ground speed,a second module that receives an aircraft vertical speed,a third module that determines an autothrottle retard initiation height based on the aircraft ground speed, the aircraft vertical speed, and an aircraft vertical landing speed factor,a fourth module that receives an aircraft height above ground,a fifth module that initiates autothrottle retard when the aircraft height above ground and the autothrottle retard initiation height are equal, anda sixth module that prevents throttle advancement after the fifth module initiates autothrottle retard. 73. The system of claim 72, wherein the third module calculates an integral of the aircraft vertical landing speed factor from throttle retard initiation to touchdown. 74. The system of claim 72, wherein the aircraft vertical landing speed factor represents a predetermined aircraft trajectory from the autothrottle retard initiation height to aircraft touchdown. 75. The system of claim 74, wherein the aircraft vertical landing speed factor at time t is expressed as GS⁡(t)⁢VSAPGSAPwhere GS(t) represents an aircraft ground speed factor at time t, VSAP represents an aircraft vertical speed during approach, andGSAP represents an aircraft ground speed during approach. 76. The system of claim 74, wherein the aircraft vertical landing speed factor at time t is expressed as GS(t)tan(FPA(t))where GS(t) represents an aircraft ground speed factor at time t and FPA(t) represents an aircraft flight path angle factor at time t. 77. The system of claim 72, wherein the second module receives an aircraft inertial vertical speed. 78. The system of claim 72, wherein the first module receives an instantaneous aircraft ground speed. 79. The system of claim 72, wherein the first module receives an average aircraft ground speed. 80. The system of claim 72, wherein the aircraft vertical landing speed factor comprises an aircraft weight. 81. An autothrottle retard initiation method comprising: receiving an aircraft ground speed,determining an autothrottle retard initiation height based on the aircraft ground speed and an autothrottle retard initiation height factor,receiving an aircraft height above ground,initiating autothrottle retard when the aircraft height above ground and the autothrottle retard initiation height are equal, andpreventing throttle advancement after initiating autothrottle retard. 82. The method of claim 81, wherein the autothrottle retard initiation height factor is expressed as GSAP2-GSTD22⁢⁢AGS⁢tan⁡(FPA)where GS represents aircraft ground speed, GSTD represents aircraft ground speed at touchdown,AGS represents a constant aircraft inertial ground speed deceleration, andFPA represents a constant aircraft flight path angle. 83. An autothrottle retard initiation system comprising: a first module that receives an aircraft ground speed,a second module that determines an autothrottle retard initiation height based on the aircraft ground speed and an autothrottle retard initiation height factor,a third module that receives an aircraft height above ground,a fourth module that initiates autothrottle retard when the aircraft height above ground and the autothrottle retard initiation height are equal, anda fifth module that prevents throttle advancement after the sixth module initiates autothrottle retard. 84. The method of claim 83, wherein the autothrottle retard initiation height factor is expressed as GSAP2-GSTD22⁢⁢AGS⁢tan⁡(FPA)where GS represents aircraft ground speed, GSTD represents aircraft ground speed at touchdown,AGS represents a constant aircraft inertial ground speed deceleration, andFPA represents a constant aircraft flight path angle. 85. An autothrottle retard initiation method comprising: receiving an aircraft weight,receiving an aircraft ground speed,receiving an aircraft height above ground,determining an autothrottle retard initiation height based on the aircraft weight and aircraft ground speed,initiating autothrottle retard when the aircraft height above ground and the autothrottle retard initiation height are equal, andpreventing throttle advancement after initiating autothrottle retard. 86. The method of claim 85 comprising: identifying contact between aircraft landing gear and a runway and retarding aircraft throttles to idle after contact between the aircraft landing gear and the runway. 87. The method of claim 85 wherein receiving the aircraft weight comprises at least one of receiving manually entered data, receiving data from an aircraft sensor, and receiving data from an external sensor. 88. An autothrottle retard initiation system comprising: a first module that receives an aircraft weight,a second module that receives an aircraft ground speed,a third module that receives an aircraft height above ground,a fourth module that determines an autothrottle retard initiation height based on inputs received from the first module and the second module,a fifth module that initiates autothrottle retard when the aircraft height above ground and the autothrottle retard initiation height are equal, anda sixth module that prevents throttle advancement after the fifth module initiates autothrottle retard. 89. The system of claim 88 comprising a seventh module that identifies contact between aircraft landing gear and a runway and an eighth module that retards aircraft throttles to idle when the seventh module identifies contact between the aircraft landing gear and the runway. 90. The system of claim 88 wherein the first module receives the aircraft weight through at least one of manually entered data, data from an aircraft sensor, and data from an external sensor.