A warning method for an aircraft includes receiving a first parameter indicative of an aircraft's flight path, calculating a stable approach value based on the first parameter, receiving a second parameter indicative of the aircraft's turbulence, calculating a turbulence factor based on the second p
A warning method for an aircraft includes receiving a first parameter indicative of an aircraft's flight path, calculating a stable approach value based on the first parameter, receiving a second parameter indicative of the aircraft's turbulence, calculating a turbulence factor based on the second parameter, calculating a safe landing value based on the stable approach value and the turbulence factor, comparing the safe landing value to a threshold value, and providing an aircraft warning when the safe landing value fails to meet the threshold value.
대표청구항▼
1. A warning method for an aircraft comprising: receiving a first parameter indicative of the aircraft's flight path,calculating a stable approach value based on the first parameter,receiving, from a motion sensor of the aircraft, a second parameter indicative of the aircraft's turbulence, wherein t
1. A warning method for an aircraft comprising: receiving a first parameter indicative of the aircraft's flight path,calculating a stable approach value based on the first parameter,receiving, from a motion sensor of the aircraft, a second parameter indicative of the aircraft's turbulence, wherein the second parameter comprises the aircraft's pitch rate and the aircraft's vertical acceleration rate,calculating a turbulence factor based on the second parameter, wherein calculating the turbulence factor comprises calculating a set of terms, wherein the set of terms comprises k{dot over (α)}vabs({dot over (α)}v) and k{dot over (θ)}abs({dot over (θ)}), wherein k{dot over (α)}v is a vertical acceleration rate gain, {dot over (α)}v is the vertical acceleration rate, k{dot over (θ)} is a pitch rate gain, {dot over (θ)} is the pitch rate, and abs is an absolute value function,calculating a safe landing value based on the stable approach value and the turbulence factor,comparing the safe landing value to a threshold value, andproviding an aircraft warning when the safe landing value fails to meet the threshold value. 2. The method of claim 1, wherein the first parameter comprises the aircraft's vertical speed and the aircraft's height above the ground. 3. The method of claim 1, wherein the aircraft's pitch rate comprises a frequency of a pitch's oscillation. 4. The method of claim 1, wherein the aircraft's vertical acceleration rate comprises a maximum vertical acceleration over a period of time. 5. The method of claim 1, wherein the second parameter comprises a frequency of the vertical acceleration rate of the aircraft. 6. The method of claim 1, wherein the second parameter comprises an acceleration of the aircraft about an axis, a rate of change of an acceleration of the aircraft about an axis, a yaw rate of the aircraft, or a roll rate of the aircraft. 7. The method of claim 1, wherein calculating the safe landing value comprises normalizing the stable approach value and the turbulence factor. 8. The method of claim 1, wherein calculating the safe landing value comprises adding the stable approach value and the turbulence factor or multiplying the stable approach value and the turbulence factor. 9. The method of claim 1, wherein the aircraft warning comprises a go-around instruction, tailstrike warning, a hard landing warning, a long landing warning, or a bounce landing warning. 10. An aircraft warning system for an aircraft comprising: a first receiver configured to receive multiple first parameters indicative of the aircraft's flight path,a second receiver configured to receive, from a motion sensor of the aircraft, multiple second parameters indicative of the aircraft's turbulence, wherein the second parameters comprise the aircraft's pitch rate and the aircraft's vertical acceleration rate,a processor configured to calculate a stable approach value based on the multiple first parameters,calculate a turbulence factor based on the multiple second parameters, wherein calculating the turbulence factor comprises calculating a set of terms, wherein the set of terms comprises k{dot over (α)}vabs({dot over (α)}v) and k{dot over (θ)}abs({dot over (θ)}), wherein k{dot over (α)}v is a vertical acceleration rate gain, {dot over (α)}v is the vertical acceleration rate, k{dot over (θ)} is a pitch rate gain, {dot over (θ)} is the pitch rate, and abs is an absolute value function,calculate a safe landing value based on the stable approach value and the turbulence factor, andcompare the safe landing value to a threshold value, andan alarm configured to provide an aircraft warning when the safe landing value fails to meet the threshold value. 11. The system of claim 10, wherein the multiple first parameters comprise the aircraft's vertical speed and the aircraft's height above the ground. 12. The system of claim 10, wherein the aircraft's pitch rate comprises a frequency of a pitch's oscillation. 13. The system of claim 10, wherein the aircraft's vertical acceleration rate comprises a maximum vertical acceleration over a period of time. 14. The system of claim 10, wherein the multiple second parameters comprise a frequency of the vertical acceleration rate of the aircraft. 15. The system of claim 10, wherein the multiple second parameters comprise an acceleration of the aircraft about an axis, a rate of change of an acceleration of the aircraft about an axis, a yaw rate of the aircraft, or a roll rate of the aircraft. 16. The system of claim 10, wherein the processor normalizes the stable approach value and the turbulence factor. 17. The system of claim 10, wherein the processor adds the stable approach value and the turbulence factor or multiplies the stable approach value and the turbulence factor. 18. The system of claim 10, wherein the aircraft warning comprises a go-around instruction, tailstrike warning, a hard landing warning, a long landing warning, or a bounce landing warning. 19. A warning method for an aircraft comprising: receiving multiple first parameters indicative of the aircraft's flight path,calculating a stable approach value based on the multiple first parameters,receiving, from a motion sensor of the aircraft, multiple second parameters indicative of the aircraft's turbulence, wherein the second parameters comprise the aircraft's pitch rate and the aircraft's vertical acceleration rate,calculating a turbulence factor based on the multiple second parameters, wherein calculating the turbulence factor comprises calculating a set of terms, wherein the set of terms comprises k{dot over (α)}vabs({dot over (α)}v) and k{dot over (θ)}abs({dot over (θ)}), wherein k{dot over (α)}v is a vertical acceleration rate gain, {dot over (α)}v is the vertical acceleration rate, k{dot over (θ)} is a pitch rate gain, {dot over (θ)} is the pitch rate, and abs is an absolute value function,calculating a safe landing value based on the stable approach value and the turbulence factor,comparing the safe landing value to a threshold value, andproviding an aircraft warning when the safe landing value fails to meet the threshold value. 20. The method of claim 19, wherein the multiple first parameters comprise the aircraft's vertical speed and the aircraft's height above the ground. 21. A warning method for an aircraft comprising: receiving a stable approach value,receiving, from a motion sensor of the aircraft, a parameter indicative of the aircraft's turbulence, wherein the parameter comprises the aircraft's pitch rate and the aircraft's vertical acceleration rate,calculating a turbulence factor based on the parameter, wherein calculating the turbulence factor comprises calculating a set of terms, wherein the set of terms comprises k{dot over (α)}vabs({dot over (α)}v) and k{dot over (θ)}abs({dot over (θ)}), wherein k{dot over (α)}v is a vertical acceleration rate gain, {dot over (α)}v is the vertical acceleration rate, k{dot over (θ)} is a pitch rate gain, {dot over (θ)} is the pitch rate, and abs is an absolute value function,calculating a safe landing value based on the stable approach value and the turbulence factor,comparing the safe landing value to a threshold value, andproviding an aircraft warning when the safe landing value fails to meet the threshold value.
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