초록 ▼

A method of increasing positional awareness of a pilot of an aircraft during a landing approach of the aircraft. First data from a navigational aid is received. The first data is analyzed to determine a first position of the aircraft at a predetermined time. Second data is received. The second data

A method of increasing positional awareness of a pilot of an aircraft during a landing approach of the aircraft. First data from a navigational aid is received. The first data is analyzed to determine a first position of the aircraft at a predetermined time. Second data is received. The second data is independent of the first data. The second data is analyzed to determine a second position of the aircraft at the predetermined time. The first position of the aircraft and the second position of the aircraft are compared, and the pilot is alerted to a difference between the first position of the aircraft and the second position of the aircraft. The second data may be displayed in a form that is convenient for the pilot to view during landing.

대표청구항 ▼

What is claimed is: 1. A method of increasing positional awareness of a pilot of an aircraft during a landing approach of the aircraft, comprising: receiving first data, said first data being data from a navigational aid; analyzing the first data to determine a first position of the aircraft at a p

What is claimed is: 1. A method of increasing positional awareness of a pilot of an aircraft during a landing approach of the aircraft, comprising: receiving first data, said first data being data from a navigational aid; analyzing the first data to determine a first position of the aircraft at a predetermined time; obtaining second data, said second data being independent of the first data; analyzing the second data to determine a second position of the aircraft at the predetermined time; comparing the first position of the aircraft to the second position of the aircraft; alerting the pilot to a difference between the first position of the aircraft and the second position of the aircraft. 2. The method of claim 1, wherein the second data is obtained by obtaining an image of a runway from a sensor disposed aboard the aircraft, and deriving a geometric construct based upon features of the runway detected in the image of the runway. 3. The method of claim 2, wherein the navigational aid is an Instrument Landing System (ILS). 4. The method of claim 2, wherein the navigational aid is a Global Positioning Satellite-based Landing System (GLS). 5. The method of claim 2, further including displaying the geometric construct on an avionics display. 6. The method of claim 5, wherein an image of the runway is obtained from the sensor a plurality of times, and further including: deriving a corresponding plurality of geometric constructs; and continuously updating the geometric construct displayed on the avionics display; wherein the plurality of geometric constructs are analyzed to determine a time-dependent change of the second position of the aircraft relative to the runway. 7. The method of claim 6, wherein the first data is received and analyzed a plurality of times to determine a time-dependent change of the first position of the aircraft relative to the runway. 8. The method of claim 1, wherein the first and second positions of the aircraft are positions of the aircraft relative to a centerline of the runway. 9. The method of claim 1, wherein the first and second positions of the aircraft are first and second glideslopes of the aircraft toward a touchdown point on the runway. 10. A method of verifying the accuracy of a navigation signal used in a landing operation of an aircraft during a low-visibility approach, comprising; receiving the navigation signal; analyzing the navigation signal to determine one of a first glideslope and a first position of the aircraft relative to a runway; obtaining an image of the runway from a sensor disposed onboard the aircraft; deriving a geometric construct based upon features of the runway detected in the image of the runway; analyzing the geometric construct to determine one of a second glideslope of the aircraft and a second position of the aircraft relative to the runway; comparing one of the first glideslope to the second glideslope, and the first position of the aircraft to the second position of the aircraft; providing a visual augmentation system that augments the operator's visual awareness of the runway; displacing the geometric construct of the runway on the visual augmentation system, thereby increasing the operator's visual awareness of the runway; and alerting an operator of the aircraft to a difference between one of the first glideslope and the second glideslope, and the first position of the aircraft and the second position of the aircraft. 11. The method of claim 10, wherein the providing the visual augmentation system comprises providing a head-up display. 12. The method of claim 10, wherein an image of the runway is obtained from the sensor a plurality of times, and further including deriving a corresponding plurality of geometric constructs, and wherein the plurality of geometric constructs are analyzed to determine a time-dependent change of position of the aircraft relative to the runway. 13. The method of claim 10, wherein at least one of the first position of the aircraft and the second position of the aircraft are determined by determining the position of the aircraft relative to a centerline of the runway. 14. The method of claim 10, wherein the image of the runway is obtained using a sensor that is sensitive to infrared light. 15. The method of claim 10, wherein receiving the navigation signal comprises receiving Instrument Landing System (ILS) broadcast data received from a Type I ILS beam. 16. The method of claim 10, wherein the visual augmentation system displays the geometric construct by overlaying the geometric construct upon the operator's view of the runway. 17. A system for assisting an airplane pilot during a landing approach of the airplane, the system comprising: a receiver configured to receive a navigation signal, wherein the navigation signal is analyzed to determine a first position of the airplane at a predetermined time; an image sensor that obtains image of a runway; a processor that derives a geometric construct based upon features of the runway detected in the image of the runway, the processor further configured to analyze the geometric construct to determine a second position of the airplane at the predetermined time; a display that displays the geometric construct so that the pilot may view the geometric construct during the landing approach; and an alerting mechanism that alerts the pilot to a difference between the first position of the airplane and the second position of the airplane. 18. The system of claim 17, wherein the first and second positions of the airplane are positions of the airplane relative to a centerline of the runway. 19. The system of claim 17, wherein the first and second positions of the airplane are first and second glideslopes of the airplane toward a touchdown point on the runway. 20. The system of claim 17 wherein the navigation signal Is one of an Instrument Landing System (ILS) signal and a Global Positioning Satellite-based Landing System (GLS) signal.