Methods and apparatuses for autonomous flight termination
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F42B-010/48
B64G-001/00
B64G-001/52
출원번호
US-0335651
(2014-07-18)
등록번호
US-9429403
(2016-08-30)
발명자
/ 주소
Papadopoulos, George B.
Devries, Derek R.
Thomas, Steven W.
Van Dixhorn, Timothy J.
Weigel, Charles L.
Dedon, Charles L.
출원인 / 주소
Orbital ATK, Inc.
대리인 / 주소
TraskBritt
인용정보
피인용 횟수 :
0인용 특허 :
4
초록▼
A flight safety assembly onboard an aerial vehicle includes a first sensor configured to sense first information related to flight of the aerial vehicle and a second sensor configured to sense second information related to the flight of the aerial vehicle. A sensor input is adapted to receive third
A flight safety assembly onboard an aerial vehicle includes a first sensor configured to sense first information related to flight of the aerial vehicle and a second sensor configured to sense second information related to the flight of the aerial vehicle. A sensor input is adapted to receive third information related to the flight of the aerial vehicle. A processor is operably coupled to the first sensor, the second sensor, and the sensor input. The processor is configured to determine three independent instantaneous impact points for the aerial vehicle by independently analyzing each of the first information, the second information and the third information. The processor is also configured to generate three independent onboard flight termination indicators for each of the three independent instantaneous impact points that intersects with a region to be protected.
대표청구항▼
1. An aerial vehicle including a flight safety assembly, comprising: a first sensor configured to sense first information related to flight of the aerial vehicle;a second sensor configured to sense second information related to the flight of the aerial vehicle; andat least one processor operably cou
1. An aerial vehicle including a flight safety assembly, comprising: a first sensor configured to sense first information related to flight of the aerial vehicle;a second sensor configured to sense second information related to the flight of the aerial vehicle; andat least one processor operably coupled to the first sensor and the second sensor and configured to: generate a first onboard flight termination indicator responsive to an analysis of the first information determining a first instantaneous impact point within a region to be protected for a projected flight path; andgenerate a second onboard flight termination indicator responsive to an analysis of the second information determining a second instantaneous impact point within the region to be protected for the projected flight path. 2. The aerial vehicle of claim 1, wherein the aerial vehicle comprises an unmanned aerial vehicle. 3. The aerial vehicle of claim 1, wherein the first sensor comprises an inertial management unit. 4. The aerial vehicle of claim 1, wherein the first sensor comprises a combination of a global positioning system and an inertial management unit. 5. The aerial vehicle of claim 1, wherein the second sensor comprises a global positioning system. 6. The aerial vehicle of claim 1, further comprising a third sensor external to the flight safety assembly and configured to generate third information for a sensor input to the flight safety assembly wherein the at least one processor is further configured to generate a third onboard flight termination indicator responsive to an analysis of the third information determining a third instantaneous impact point within the region to be protected. 7. The aerial vehicle of claim 6, wherein the third sensor comprises at least one of a global positioning system or an inertial management unit. 8. The aerial vehicle of claim 1, further comprising a termination mechanism operably coupled to the flight safety assembly and configured to terminate flight of the aerial vehicle when at least one of the first onboard flight termination indicator or the second onboard flight termination indicator is active. 9. The aerial vehicle of claim 8, wherein the termination mechanism is configured to terminate the flight by activating an explosive onboard the aerial vehicle. 10. The aerial vehicle of claim 8, wherein the termination mechanism is configured to terminate the flight by disabling propulsion of the aerial vehicle. 11. The aerial vehicle of claim 1, wherein the at least one processor is further configured to repeat the processes of generating the first onboard flight termination indicator and generating the second onboard flight termination indicator a plurality of times and the aerial vehicle further comprises a termination mechanism operably coupled to the flight safety assembly and configured to terminate flight of the aerial vehicle when at least one of the first onboard flight termination indicator or the second onboard flight termination indicator being active for the plurality of times. 12. The aerial vehicle of claim 1, wherein the at least one processor is further configured to place the flight safety assembly in a safe mode responsive to a determination by the at least one processor that at least a portion of the flight has been completed successfully. 13. The aerial vehicle of claim 1, wherein the at least one processor includes: a first processor operably coupled to the first sensor and the second sensor and configured to generate the first onboard flight termination indicator responsive to an analysis of the first information in combination with the second information determining the first instantaneous impact point within the region to be protected; anda second processor operably coupled to the first sensor and the second sensor and configured to generate the second onboard flight termination indicator responsive to an analysis of the first information in combination with the second information determining the second instantaneous impact point within the region to be protected. 14. The aerial vehicle of claim 13, wherein the aerial vehicle comprises an unmanned aerial vehicle. 15. The aerial vehicle of claim 13, wherein the first sensor and the second sensor each comprises at least one of a global positioning system or an inertial management unit. 16. The aerial vehicle of claim 13, further comprising a termination mechanism operably coupled to the first processor and the second processor and configured to terminate the flight of the aerial vehicle if at least one of the first onboard flight termination indicator or the second onboard flight termination indicator is asserted. 17. The aerial vehicle of claim 16, wherein the termination mechanism is configured to terminate the flight by at least one of activating an explosive onboard the aerial vehicle or disabling propulsion of the aerial vehicle. 18. The aerial vehicle of claim 13, further comprising: a third sensor operably coupled to the first processor and for sensing third information related to flight of the aerial vehicle; anda fourth sensor operably coupled to the second processor and for sensing fourth information related to flight of the aerial vehicle;wherein the first processor is further configured to generate the first onboard flight termination indicator responsive to an analysis of the third information in combination with the analysis of the first information and the second information when determining the first instantaneous impact point within the region to be protected; andwherein the second processor is further configured to generate the first onboard flight termination indicator responsive to an analysis of the fourth information in combination with the analysis of the first information and the second information when determining the first instantaneous impact point within the region to be protected. 19. The aerial vehicle of claim 18, wherein the third sensor and the fourth sensor each comprises at least one of a global positioning system and an inertial management unit. 20. A flight safety system, comprising: an aerial vehicle; andtwo autonomous flight safety assemblies onboard the aerial vehicle, each of the two autonomous flight safety assemblies comprising: a sensor configured to sense information related to flight of the aerial vehicle; anda processor operably coupled to the sensor and configured to: analyze the information to determine a projected flight path of the aerial vehicle; andgenerate an onboard flight termination signal if the projected flight path indicates that the aerial vehicle will leave a safe window. 21. The flight safety system of claim 20, wherein the aerial vehicle comprises an unmanned aerial vehicle. 22. The flight safety system of claim 20, wherein the sensor for each of the two autonomous flight safety assemblies comprises at least one of a global positioning system and an inertial management unit. 23. The flight safety system of claim 20, wherein the processor for each of the two autonomous flight safety assemblies is further configured to generate the onboard flight termination signal if the projected flight path indicates that the aerial vehicle will violate a boundary that designates a keep-in or keep-out zone or area. 24. The flight safety system of claim 20, wherein each of the two autonomous flight safety assemblies further comprises a sensor input operably coupled to the processor and a sensor output operably coupled to the sensor and wherein the sensor input of each of the two autonomous flight safety assemblies is coupled to the sensor output of the other of the two autonomous flight safety assemblies. 25. The flight safety system of claim 24, wherein the processor in each of the two autonomous flight safety assemblies is further configured to: analyze second information from the sensor input to determine a second projected flight path of the aerial vehicle; andgenerate the onboard flight termination signal if at least one of the projected flight path and the second projected flight path indicates that the aerial vehicle will leave the safe window. 26. The flight safety system of claim 20, further comprising a termination mechanism operably coupled to the two autonomous flight safety assemblies and configured to terminate the flight of the aerial vehicle if the onboard flight termination signal from at least one of the two autonomous flight safety assemblies is asserted. 27. The flight safety system of claim 26, wherein the termination mechanism is configured to terminate the flight by at least one of activating an explosive onboard the aerial vehicle and disabling propulsion of the aerial vehicle. 28. A method for determining safety parameters of an aerial vehicle, comprising: sensing first information related to flight of the aerial vehicle and sensing second information related to the flight of the aerial vehicle using one or more sensors;determining two independent instantaneous impact points for the aerial vehicle by independently analyzing each of the first information and the second information; andgenerating two independent onboard flight termination indicators, each responsive to one of the two independent instantaneous impact points being within a region to be protected for a projected flight path. 29. The method of claim 28, further comprising: receiving third information related to the flight of the aerial vehicle from a sensor input;determining a third independent instantaneous impact point for the aerial vehicle by independently analyzing the third information; andgenerating a third independent onboard flight termination indicator responsive to the third independent instantaneous impact point being within the region to be protected. 30. The method of claim 29, wherein the third information is received from at least one of sensing a global positioning system location or sensing inertial parameters responsive to the motion of the aerial vehicle. 31. The method of claim 28, wherein sensing the first information comprises a combination of sensing a global positioning system location and sensing inertial parameters responsive to motion of the aerial vehicle. 32. The method of claim 28, wherein sensing the second information comprises sensing a global positioning system location. 33. The method of claim 28, further comprising: repeating determining the two independent instantaneous impact points and generating the two independent onboard flight termination indicators a plurality of times; andterminating flight of the aerial vehicle if at least one of the two independent onboard flight termination indicators is active for the plurality of times. 34. The method of claim 33, wherein terminating the flight of the aerial vehicle comprises at least one of activating an explosive onboard the aerial vehicle or disabling propulsion of the aerial vehicle. 35. A method for determining safety parameters of an aerial vehicle, comprising:sensing first information related to flight of the aerial vehicle andsensing second information related to the flight of the aerial vehicle using one or more sensors;analyzing the first information and the second information with one or more processors to determine a projected flight path of the aerial vehicle; andgenerating an onboard flight termination signal if the projected flight path indicates the aerial vehicle will leave a safe window. 36. The method of claim 35, comprising: sensing third information related to the flight of the aerial vehicle; andanalyzing the third information in combination with the first information and the second information with the one or more processors when determining the projected flight path. 37. The method of claim 36, comprising: sensing fourth information related to the flight of the aerial vehicle; andanalyzing the fourth information in combination with the first information, the second information, and the fourth information with the one or more processors when determining the projected flight path. 38. The method of claim 35, further comprising terminating flight of the aerial vehicle if the onboard flight termination signal is asserted.
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이 특허에 인용된 특허 (4)
McKendree, Thomas L.; Habereder, Hans L.; Ormand, Donald R., Integrity bound situational awareness and weapon targeting.
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