IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0310066
(2011-12-02)
|
등록번호 |
US-8963742
(2015-02-24)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
11 |
초록
▼
A head-up display system includes an aircraft, a predicted flight path generation component that calculates a predicted flight path over a period of time, and a graphic generation component configured to generate a graphical display and project it onto a combiner configured to combine the graphical
A head-up display system includes an aircraft, a predicted flight path generation component that calculates a predicted flight path over a period of time, and a graphic generation component configured to generate a graphical display and project it onto a combiner configured to combine the graphical display with a visual exterior view. A synthetic vision system includes an aircraft, a predicted flight path generation component that receives one or more state parameters and calculates a predicted flight path over a period of time, and a synthetic terrain generation component configured to generate a synthetic view which is displayed on a display. The graphical display and/or the synthetic view includes a three-dimensional depiction of the predicted flight path over the period of time generated utilizing one or more three-dimensional transforms, one or more graphical images based on flight data, and a three-dimensional graphical depiction of a flight plan.
대표청구항
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1. A system, comprising: an aircraft, including at least one sensor configured to detect information about at least one state parameter of a present position of the aircraft;a head-up display, comprising: a predicted flight path generation component, the predicted flight path generation component co
1. A system, comprising: an aircraft, including at least one sensor configured to detect information about at least one state parameter of a present position of the aircraft;a head-up display, comprising: a predicted flight path generation component, the predicted flight path generation component configured to receive the at least one state parameter and calculate a predicted trajectory for the aircraft over a period of time based on the at least one state parameter;a graphic generation component, the graphic generation component configured to generate a graphical display; anda combiner, the combiner configured to combine the graphical display with a visual exterior view of a scene external to the aircraft,wherein the graphical display includes a three-dimensional graphical representation of the predicted trajectory and the predicted trajectory includes one or more predicted locations for the aircraft at one or more future times different than a current time at which the predicted trajectory is displayed, the at least one state parameter of the present position of the aircraft includes a second order derivative of a state of the aircraft and the predicted trajectory for the aircraft over a period of time based on the at least one state parameter, the predicted flight path generation component uses a predicted first order derivative of the state of the aircraft based upon the second order derivative to refine the one or more predicted locations for the aircraft at the one or more future times. 2. The system of claim 1, wherein the head-up display further comprises a flight data receiver configured to receive flight data for the aircraft and the graphical display includes at least one graphical image based on the flight data. 3. The system of claim 1, wherein the graphic generation component generates the three-dimensional graphical representation of the predicted trajectory by at least one three-dimensional graphic transform on the predicted trajectory. 4. The system of claim 1, wherein the at least one state parameter includes at least one of an airspeed of the aircraft, a pitch of the aircraft, a roll of the aircraft, a yaw of the aircraft, a heading of the aircraft, an angle of attack of the aircraft, or a slip of the aircraft. 5. The system of claim 1, wherein the graphical display includes a three-dimensional graphical representation of a flight plan of the aircraft. 6. A system, comprising: an aircraft, including at least one sensor configured to detect information about at least one state parameter of a present position of the aircraft;a synthetic vision system, comprising: a predicted flight path generation component, the predicted flight path generation component configured to receive the at least one state parameter and calculate a predicted trajectory for the aircraft over a period of time based on the at least one state parameter;a synthetic terrain generation component, the synthetic terrain generation component configured to generate a synthetic view; anda display, the display configured to display the synthetic view, wherein the synthetic view includes a three-dimensional graphical representation of the predicted trajectory, and where the predicted trajectory includes one or more predicted locations for the aircraft at one or more future times different than a current time at which the predicted trajectory is displayed, the at least one state parameter of the present position of the aircraft includes a second order derivative of a state of the aircraft and the predicted trajectory for the aircraft over a period of time based on the at least one state parameter, the predicted flight path generation component uses a predicted first order derivative of the state of the aircraft based upon the second order derivative to refine the one or more predicted locations for the aircraft at the one or more of future times. 7. The system of claim 6, wherein the synthetic vision system further comprises a flight data receiver configured to receive flight data for the aircraft and the graphical display includes at least one graphical image based on the flight data. 8. The system of claim 6, wherein the synthetic terrain generation component generates the three-dimensional graphical representation of the predicted trajectory by at least one three-dimensional graphic transform on the predicted trajectory. 9. The system of claim 6, wherein the at least one state parameter includes at least one of an airspeed of the aircraft, a rate of change of the airspeed of the aircraft, an acceleration of the airspeed of the aircraft, a pitch of the aircraft, a rate of change of the pitch of the aircraft, an acceleration of the pitch of the aircraft, a roll of the aircraft, a rate of change of the roll of the aircraft, an acceleration of the roll of the aircraft, a yaw of the aircraft, a rate of change of the yaw of the aircraft, an acceleration of the yaw of the aircraft, a heading of the aircraft, a rate of change of the heading of the aircraft, an acceleration of the heading of the aircraft, an angle of attack of the aircraft, a rate of change of the angle of attack of the aircraft, an acceleration of the angle of attack of the aircraft, a slip of the aircraft, a rate of change of the slip of the aircraft, or an acceleration of the slip of the aircraft. 10. The system of claim 6, wherein the synthetic view includes a three-dimensional graphical representation of a flight plan of the aircraft. 11. A synthetic vision system, comprising: a predicted flight path generation component, the predicted flight path generation component configured to receive at least one state parameter and calculate a predicted trajectory for an aircraft over a period of time based on the at least one state parameter;a synthetic terrain generation component, the synthetic terrain generation component configured to generate a synthetic view; anda display, the display configured to provide the synthetic view, wherein the synthetic view includes a three-dimensional graphical representation of the predicted trajectory, where the predicted trajectory includes one or more predicted locations for the aircraft at one or more future times different than a current time at which the predicted trajectory is provided, the at least one state parameter of a present position of the aircraft includes a second order derivative of a state of the aircraft and the predicted trajectory for the aircraft over a period of time based on the at least one state parameter, the predicted flight path generation component uses a predicted first order derivative of the state of the aircraft based upon the second order derivative to refine the one or more predicted locations for the aircraft at the one or more future times. 12. The system of claim 11, further comprising a flight data receiver configured to receive flight data for the aircraft and the synthetic view includes at least one graphical image based on the flight data. 13. The system of claim 11, wherein the synthetic terrain generation component generates the three-dimensional graphical representation of the predicted trajectory by at least one three-dimensional graphic transform on the predicted trajectory. 14. The system of claim 11, wherein the at least one state parameter includes at least one of an airspeed of the aircraft, a rate of change of the airspeed of the aircraft, an acceleration of the airspeed of the aircraft, a pitch of the aircraft, a rate of change of the pitch of the aircraft, an acceleration of the pitch of the aircraft, a roll of the aircraft, a rate of change of the roll of the aircraft, an acceleration of the roll of the aircraft, a yaw of the aircraft, a rate of change of the yaw of the aircraft, an acceleration of the yaw of the aircraft, a heading of the aircraft, a rate of change of the heading of the aircraft, an acceleration of the heading of the aircraft, an angle of attack of the aircraft, a rate of change of the angle of attack of the aircraft, an acceleration of the angle of attack of the aircraft, a slip of the aircraft, a rate of change of the slip of the aircraft, or an acceleration of the slip of the aircraft. 15. The system of claim 11, wherein the synthetic view includes a three-dimensional graphical representation of a flight plan of the aircraft.
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