IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0055163
(2009-07-23)
|
등록번호 |
US-8749431
(2014-06-10)
|
우선권정보 |
EP-08013326 (2008-07-24) |
국제출원번호 |
PCT/EP2009/059483
(2009-07-23)
|
§371/§102 date |
20110504
(20110504)
|
국제공개번호 |
WO2010/010143
(2010-01-28)
|
발명자
/ 주소 |
- Thill, Marc
- Harles, Guy
- Gross, Markus
- Wouters, Jos
- Krier, Georges
|
출원인 / 주소 |
|
대리인 / 주소 |
Wolf, Greenfield & Sacks, P.C.
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
9 |
초록
▼
A system for estimating a spacecraft (6) position is disclosed. It includes receiving stations (4) for receiving signals transmitted from the spacecraft (6) and a processing station (2) for receiving data from the receiving stations (4). Each receiving station (4) records, during a recording window
A system for estimating a spacecraft (6) position is disclosed. It includes receiving stations (4) for receiving signals transmitted from the spacecraft (6) and a processing station (2) for receiving data from the receiving stations (4). Each receiving station (4) records, during a recording window (8), the signals transmitted from the spacecraft (6) and transmits, to the processing station (2), data representing the recorded signals during the recording window (8). The recording windows (8) associated with each of the receiving stations (4) are offset and/or of different size with respect to each other. The processing station (2) correlates the recorded signals to estimate the distance difference between the spacecraft (6) and each of a plurality of receiving stations and to estimate the spacecraft (6) position. A method, a receiving station (4), a processing station (2) and a computer program are also disclosed.
대표청구항
▼
1. System for estimating a spacecraft position, including: a plurality of receiving stations arranged to receive signals transmitted from the spacecraft; anda processing station arranged to receive data from the plurality of receiving stations;wherein each of the receiving stations is arranged to re
1. System for estimating a spacecraft position, including: a plurality of receiving stations arranged to receive signals transmitted from the spacecraft; anda processing station arranged to receive data from the plurality of receiving stations;wherein each of the receiving stations is arranged to record, during a time window, herewith referred to as recording window, the signals transmitted from the spacecraft and to transmit, to the processing station, data representing the recorded signals during the recording window;the recording windows associated with each of the receiving stations are arranged to be offset and/or to be of different size with respect to each other; andthe processing station is arranged to correlate the recorded signals to estimate, for each of at least one pair among the plurality of receiving stations, a distance difference between the spacecraft and each receiving station of the pair, and, based thereon, the spacecraft position. 2. System of claim 1, wherein the offset between the recording windows associated with two receiving stations and/or the size of each of the recording windows is arranged to be calculated based on information on the position of the spacecraft and/or the at least one distance difference, andthe position of the two receiving stations. 3. System of claim 2, wherein the offset and/or the size is arranged to be calculated by the processing station. 4. System according to claim 1, for estimating and tracking the spacecraft position, wherein the offset between the recording windows associated with two receiving stations and/or the size of each of the recording windows is arranged to be calculated based on, or based further on, information on the spacecraft position and/or the at least one distance difference, as estimated by the processing station. 5. System of claim 4, wherein the offset and/or the size is arranged to be calculated between a first recording operation and a second recording operation based on the estimated spacecraft position and/or the at least one distance difference, derived from the first recording operation. 6. System of claim 1, wherein at least one of the receiving stations is located outside the main lobe downlink footprint of the spacecraft. 7. System of claim 1, wherein each recording window has a size comprised between 4 microseconds and 2 milliseconds. 8. Method for estimating a spacecraft position using a plurality of receiving stations arranged to receive signals transmitted from the spacecraft and a processing station arranged to receive data from the plurality of receiving stations, the method including: a recording and transmitting procedure including recording, by each of the receiving stations, during a time window, herewith referred to as recording window, the signals transmitted from the spacecraft and transmitting, by each of the receiving stations to the processing station, data representing the recorded signals during the recording window; wherein the recording windows associated with each of the receiving stations are offset and/or are of different size with respect to each other; anda correlating procedure including correlating, by the processing station, the recorded signals to estimate, for each of at least one pair among the plurality of receiving stations, a distance difference between the spacecraft and each receiving station of the pair, and, based thereon, the spacecraft position. 9. Method of claim 8, wherein the offset between the recording windows associated with two receiving stations and/or the size of each of the recording windows is calculated based on information on the position of the spacecraft and/or the at least one distance difference, andthe position of the two receiving stations. 10. Method of claim 9, wherein the offset and/or the size is calculated by the processing station. 11. Method according to claim 8, for estimating and tracking the spacecraft position, wherein the offset between the recording windows-associated with two receiving stations and/or the size of each of the recording windows is calculated based on, or based further on, information on the spacecraft position and/or the at least one distance difference, as estimated by the processing station. 12. Method of claim 11, wherein the offset and/or the size is calculated between a first recording operation and a second recording operation based on the estimated spacecraft position and/or the at least one distance difference, derived from the first recording operation. 13. Method of claim 8, wherein at least one of the receiving stations is located outside the main lobe downlink footprint of the spacecraft. 14. Method of claim 8, wherein each recording window has a size comprised between 4 microseconds and 2 milliseconds. 15. Receiving station for participating in estimating a spacecraft position, comprising: a first receiver arranged for receiving signals transmitted from the spacecraft;a second receiver arranged for receiving, from a processing station, a trigger time indication as an instruction to a start of a time window and/or a window size indication as an instruction to a size of the time window;a recorder arranged for recording, during a time window started according to the received trigger time indication and/or window size indication, the signals transmitted from the spacecraft, the time window being herewith referred to as recording window; anda transmitter arranged for transmitting, to the processing station, data representing the recorded signals during the recording window. 16. Receiving station of claim 15, located outside the main lobe downlink footprint of the spacecraft. 17. Processing station for participating in estimating a spacecraft position, comprising: a transmitter arranged for transmitting, to each of a plurality of receiving stations arranged to receive signals transmitted from the spacecraft, a trigger time indication referring to the start of a time window, herewith referred to as recording window, and/or a window size indication as an instruction to a size of the recording window;a receiver arranged for receiving, from each of the plurality of receiving stations, data representing recorded signals transmitted from the spacecraft during the recording window; wherein the recording windows associated with each of the receiving stations are arranged to be offset and/or to be of different size with respect to each other; anda correlator arranged for correlating the recorded signals to estimate, for each of at least one pair among the plurality of receiving stations, a distance difference between the spacecraft and each receiving station of the pair, and, based thereon, the spacecraft position. 18. Processing station of claim 17, wherein the offset between the recording windows associated with two receiving stations and/or the size of each of the recording windows is arranged to be calculated by the processing station based on information on the position of the spacecraft and/or the at least one distance difference, andthe position of the two receiving stations. 19. Processing station of claim 17, for estimating and tracking the spacecraft position, wherein the offset between the recording windows associated with two receiving stations and/or the size of each of the recording windows is arranged to be calculated by the processing station based on, or based further on, information on the spacecraft position and/or the at least one distance difference, as estimated by the processing station. 20. Processing station of claim 19, wherein the offset and/or size is arranged to be calculated between a first recording operation and a second recording operation based on the estimated spacecraft position and/or the at least one distance difference, derived from the first recording operation. 21. Processing station of claim 17, wherein each recording window has a size comprised between 4 microseconds and 2 milliseconds. 22. Computer program configured, when executed on a receiving station or on a processing station, to carry out the receiving station specific procedures or the processing station specific procedures respectively of the method according to claim 8.
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