Solar energy collection flight path management system for aircraft
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01C-023/00
G05D-001/00
G05D-003/00
G06F-007/00
G06F-017/00
출원번호
US-0182065
(2011-07-13)
등록번호
US-8359128
(2013-01-22)
발명자
/ 주소
Segal, Matthew Jonathan
Wise, Kevin Andrew
출원인 / 주소
The Boeing Company
인용정보
피인용 횟수 :
2인용 특허 :
12
초록▼
A method and apparatus for managing solar power collection. A position of the sun is identified relative to an aerospace vehicle while the aerospace vehicle is moving along a flight path. A level of power generation is identified by a solar power generation system while the aerospace vehicle moves a
A method and apparatus for managing solar power collection. A position of the sun is identified relative to an aerospace vehicle while the aerospace vehicle is moving along a flight path. A level of power generation is identified by a solar power generation system while the aerospace vehicle moves along the flight path using a threat management module and equivalent radar signature data. The threat management module uses the equivalent radar signature data to identify the level of power generation by the aerospace vehicle from different positions of the sun relative to the aerospace vehicle, and the equivalent radar signature data is based on solar power generation signature data identifying the level of power generation for the different positions of the sun relative to the aerospace vehicle. A change in the flight path that results in a desired level of power generation is identified by the solar power generation system.
대표청구항▼
1. A method for managing solar power collection, the method comprising: identifying a position of a sun relative to an aerospace vehicle while the aerospace vehicle is moving along a flight path;identifying a level of power generation by a solar power generation system while the aerospace vehicle mo
1. A method for managing solar power collection, the method comprising: identifying a position of a sun relative to an aerospace vehicle while the aerospace vehicle is moving along a flight path;identifying a level of power generation by a solar power generation system while the aerospace vehicle moves along the flight path using a threat management module and equivalent radar signature data, wherein the threat management module uses the equivalent radar signature data to identify the level of power generation by the aerospace vehicle from different positions of the sun relative to the aerospace vehicle, and the equivalent radar signature data is based on solar power generation signature data identifying the level of power generation for the different positions of the sun relative to the aerospace vehicle; andidentifying a change in the flight path that results in a desired level of power generation by the solar power generation system. 2. The method of claim 1 further comprising: changing the flight path of the aerospace vehicle using the change. 3. The method of claim 1, wherein identifying the level of power generation by the solar power generation system while the aerospace vehicle moves along the flight path using the threat management module and the equivalent radar signature data comprises: identifying the level of power generation by the solar power generation system with the position of the sun being a position of a threat. 4. The method of claim 1, wherein identifying the change in the flight path that results in the desired level of power generation by the solar power generation system comprises: identifying the change in the flight path that results in the desired level of power generation by the solar power generation system and meets a number of parameters for a mission for the aerospace vehicle. 5. The method of claim 4, wherein identifying the change in the flight path that results in the desired level of power generation by the solar power generation system and meets the number of parameters for the mission for the aerospace vehicle comprises: identifying the change in the flight path that results in the desired level of power generation by the solar power generation system and meets the number of parameters for the mission for the aerospace vehicle, wherein the number of parameters comprises an area of observation, a predefined boundary, a target location, and a range of altitudes. 6. The method of claim 1 further comprising: performing identifying the level of power generation by the solar power generation system while the aerospace vehicle moves along the flight path using the threat management module and the equivalent radar signature data, wherein the threat management module uses the equivalent radar signature data to identify the level of power generation by the aerospace vehicle from the different positions of the sun relative to the aerospace vehicle, and the equivalent radar signature data is based on the solar power generation signature data identifying the level of power generation for the different positions of the sun relative to the aerospace vehicle and identifying the change in the flight path that results in the desired level of power generation by the solar power generation system in a computer system in the aerospace vehicle. 7. The method of claim 1 further comprising: performing identifying the level of power generation by the solar power generation system while the aerospace vehicle moves along the flight path using the threat management module and the equivalent radar signature data, wherein the threat management module uses the equivalent radar signature data to identify the level of power generation by the aerospace vehicle from the different positions of the sun relative to the aerospace vehicle, and the equivalent radar signature data is based on the solar power generation signature data identifying the level of the power generation for the different positions of the sun relative to the aerospace vehicle and identifying the change in the flight path that results in the desired level of power generation by the solar power generation system in a computer system in a location remote to the aerospace vehicle. 8. The method of claim 1, wherein the equivalent radar signature data are plots of radar responses for a plurality of azimuths and elevations in which the radar responses are from responses of power generation for the plurality of azimuths and elevations. 9. The method of claim 1 further comprising: inverting values for the solar power generation signature data to form the equivalent radar signature data. 10. The method of claim 1, wherein identifying the position of the sun relative to the aerospace vehicle while the aerospace vehicle is moving along the flight path comprises: identifying the position of the sun relative to the aerospace vehicle while the aerospace vehicle is moving along the flight path, wherein the aerospace vehicle is selected from one of an aircraft, an unmanned aerial vehicle, a manned aircraft, and a spacecraft. 11. An apparatus comprising: a flight management system configured to identify a position of a sun relative to an aerospace vehicle while the aerospace vehicle is moving along a flight path; identify a level of power generation by a solar power generation system while the aerospace vehicle moves along the flight path using a threat management module and equivalent radar signature data, wherein the threat management module uses the equivalent radar signature data to identify the level of power generation by the aerospace vehicle from different positions of the sun relative to the aerospace vehicle, and the equivalent radar signature data is based on solar power generation signature data identifying the level of power generation for the different positions of the sun relative to the aerospace vehicle; and identify a change in the flight path that results in a desired level of power generation by the solar power generation system. 12. The apparatus of claim 11, wherein the flight management system is further configured to change the flight path of the aerospace vehicle using the change. 13. The apparatus of claim 11, wherein in being configured to identify the level of power generation by the solar power generation system while the aerospace vehicle moves along the flight path using the threat management module and the equivalent radar signature data, the flight management system is configured to identify the level of power generation by the solar power generation system with the position of the sun being a position of a threat using the threat management module. 14. The apparatus of claim 11, wherein in being configured to identify the change in the flight path that results in the desired level of power generation by the solar power generation system, the flight management system is configured to identify the change in the flight path that results in the desired level of power generation by the solar power generation system and meets a number of parameters for a mission for the aerospace vehicle. 15. The apparatus of claim 14, wherein the number of parameters comprises an area of observation, a predefined boundary, a target location, and a range of altitudes. 16. The apparatus of claim 11, wherein the equivalent radar signature data are plots of radar responses for a plurality of azimuths and elevations in which the radar responses are from responses of power generation for the plurality of azimuths and elevations. 17. The apparatus claim 11 further comprising: the aerospace vehicle. 18. The apparatus of claim 11, wherein the aerospace vehicle is selected from one of an aircraft, an unmanned aerial vehicle, a manned aircraft, and a spacecraft. 19. A computer program product comprising: a computer readable storage media;first program code for identifying a position of a sun relative to an aerospace vehicle while the aerospace vehicle is moving along a flight path;second program code for identifying a level of power generation by a solar power generation system while the aerospace vehicle moves along the flight path using a threat management module and equivalent radar signature data, wherein the threat management module uses the equivalent radar signature data to identify the level of power generation by the aerospace vehicle from different positions of the sun relative to the aerospace vehicle, and the equivalent radar signature data is based on solar power generation signature data identifying the level of power generation for the different positions of the sun relative to the aerospace vehicle; andthird program code for identifying a change in the flight path that results in a desired level of power generation by the solar power generation system, wherein the first program code, the second program code, and the third program code are stored on the computer readable storage media. 20. The computer program product of claim 19 further comprising: fourth program code for changing the flight path of the aerospace vehicle using the change, wherein the fourth program code is stored on the computer readable storage media.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (12)
Hibbs Bart D. ; Lissaman Peter B. S. ; Morgan Walter R. ; Radkey Robert L., Aircraft.
Chuprun Jeffrey Scott ; Bergstrom Chad S. ; Tarver Byron ; Beaudry Bennett, Communications network having adaptive network link optimization using wireless terrain awareness and method for use therein.
Bang,Hyo Choog; Kumar,Krishna Dev; Thak,Min Jae, Method for controlling the attitude of an satellites in elliptic orbits using solar radiation pressure.
Cosgrove, Jr.,Allen F.; Floyd,David D.; Woodbury,Michael E.; Chelden,Wayne H.; Clark,W. Andrew, System and method for controlling and communicating with a vehicle.
Westervelt, Eric Richard; Breig, Benjamin Paul; Dokucu, Mustafa Tekin; Garrigan, Neil Richard; Gerstler, William Dwight; Parrilla, Javier Armando, Systems and methods for control of an adaptive-cycle engine with power-thermal management system.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.