Method and system of interference detection for radar altimeters
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01S-013/08
G01S-013/00
출원번호
UP-0778442
(2007-07-16)
등록번호
US-7518547
(2009-07-01)
발명자
/ 주소
Winstead, Benjamin J.
출원인 / 주소
Honeywell International Inc.
대리인 / 주소
Fogg & Powers LLC
인용정보
피인용 횟수 :
1인용 특허 :
13
초록▼
A method of detecting interference noise at a radar altimeter. The method comprises periodically emitting a pulse from the pulsed radar altimeter, periodically detecting a noise level in a noise gate, and determining if the noise level detected during each noise-level-detection period exceeds a noi
A method of detecting interference noise at a radar altimeter. The method comprises periodically emitting a pulse from the pulsed radar altimeter, periodically detecting a noise level in a noise gate, and determining if the noise level detected during each noise-level-detection period exceeds a noise threshold. The period of emitting the pulse is a pulse repetition interval and the noise gate is offset from other gates in the altimeter. If the noise level detected during a noise-level-detection period is greater than the noise threshold, a counter value is incremented by a selected incremental value for that noise-level-detection period and it is determined if the counter value is greater than a count threshold.
대표청구항▼
What is claimed is: 1. A method of detecting interference noise at a radar altimeter, the method comprising: periodically emitting a pulse from the pulsed radar altimeter, wherein the time period between the start times of consecutively emitted pulses is a pulse repetition interval; periodically de
What is claimed is: 1. A method of detecting interference noise at a radar altimeter, the method comprising: periodically emitting a pulse from the pulsed radar altimeter, wherein the time period between the start times of consecutively emitted pulses is a pulse repetition interval; periodically detecting a noise level in a noise gate, the noise gate being offset from other gates in the altimeter; determining if the noise level detected during each noise-level-detection period exceeds a noise threshold; if the noise level detected during a noise-level-detection period is greater than the noise threshold, incrementing a counter value by a selected incremental value for that noise-level-detection period; and determining if the counter value is greater than a count threshold. 2. The method of claim 1, further comprising: indicating that an interference noise is present while the counter value exceeds the count threshold. 3. The method of claim 2, further comprising: if the noise level detected during a noise-level-detection period is less than the noise threshold, decrementing the counter value by a selected decremental value for that noise-level-detection period until the counter value is equal to or less than zero. 4. The method of claim 3, further comprising: determining if the counter value is greater than or equal to a maximum-count threshold; and limiting the counter value to the maximum-count threshold based on the determination that the counter value is greater than or equal to a maximum-count threshold. 5. The method of claim 4, further comprising: while the counter value is between the count threshold and the maximum-count threshold, continuing to decrement the counter value by the selected decremental value for each noise-level-detection period during which the noise level is less than the noise threshold; and incrementing the counter value by one of the selected incremental value, and a difference between a current counter value and the maximum-count threshold for each noise-level-detection period during which the noise level is greater than the noise threshold. 6. The method of claim 1, further comprising: setting the counter to zero during an initialization. 7. The method of claim 1, wherein periodically detecting a noise level in a gated region comprises: configuring the noise gate with a rising edge and a falling edge; when an altitude measured by the radar altimeter is less than a selected altitude threshold, positioning the noise gate to an inbound side of a transmit pulse. 8. The method of claim 7, further comprising: configuring a track gate with a rising edge and a falling edge wherein the rising edge of the track gate is to an outbound side of the transmit pulse, and wherein when the altitude measured by the radar altimeter is greater than the selected altitude threshold, the method further comprises: positioning the noise gate to the outbound side of the transmit pulse; and positioning the noise gate to an inbound side of the track gate. 9. The method of claim 1, further comprising: setting the noise-level-detection period to be equal to the pulse repetition interval. 10. An interference detecting pulsed radar altimeter, comprising: a radio frequency receiver gated to periodically detect an intensity at a noise gate; a counter communicatively coupled to the radio frequency receiver, the counter operable to increment by a selected increment value if the intensity detected in the noise gate exceeds a noise threshold; and a programmable processor communicatively coupled to the counter, the programmable processor operable to determine if a counter value exceeds a count threshold and further operable to adjust at least one parameter of the pulsed radar altimeter if the counter value exceeds the count threshold. 11. The interference detecting pulsed radar altimeter of claim 10, further comprising: a memory to store the noise threshold value and the count threshold, the memory communicatively coupled to the programmable processor and the counter. 12. The interference detecting pulsed radar altimeter of claim 10, further comprising: a radar pulse transmitter, wherein the radio frequency receiver is gated to detect noise at a point in time that is offset from the pulse transmission. 13. The interference detecting pulsed radar altimeter of claim 12, further comprising: a track gate, wherein the radio frequency receiver is gated to detect noise at a point in time that is offset from the track gate. 14. A program product comprising program instructions, embodied on a storage medium, that are operable to cause a programmable processor to: periodically determine if a noise level detected during each noise-level-detection period exceeds a noise threshold; if the noise level detected during a noise-level-detection period is greater than the noise threshold, increment a counter value by a selected incremental value for that noise-level-detection period; and determine if the counter value is greater than a count threshold. 15. The program product of claim 14, further comprising instructions operable to cause the programmable processor to: indicate that an interference noise is present while the counter value exceeds the count threshold. 16. The program product of claim 15, further comprising instructions operable to cause the programmable processor to: decrement the counter value by a selected decremental value for that noise-level-detection period until the counter value is equal to or less than zero if the noise level detected during a noise-level-detection period is less than the noise threshold. 17. The program product of claim 16, further comprising instructions operable to cause the programmable processor to: determine if the counter value is greater than or equal to a maximum-count threshold; and limit the counter value to the maximum-count threshold based on the determination that the counter value is greater than or equal to a maximum-count threshold. 18. The program product of claim 14, further comprising instructions operable to cause the programmable processor to: while the counter value is between the count threshold and the maximum-count threshold, continue to decrement the counter value by the selected decremental value for each noise-level-detection period during which the noise level is less than the noise threshold; and increment the counter value by one of the selected incremental value, and a difference between a current counter value and the maximum-count threshold for each noise-level-detection period during which the noise level is greater than the noise threshold. 19. The program product of claim 14, further comprising instructions operable to cause the programmable processor to: configure the noise gate with a rising edge and a falling edge; position the noise gate to an inbound side of a transmit pulse when an altitude measured by the radar altimeter is less than a selected altitude threshold. 20. The program product of claim 19, further comprising instructions operable to cause the programmable processor to: configure a track gate with a rising edge and a falling edge wherein the rising edge of the track gate is to an outbound side of the transmit pulse, and wherein when the altitude measured by the radar altimeter is greater than the selected altitude threshold, the method further comprises: position the noise gate to the outbound side of the transmit pulse; and position the noise gate to an inbound side of the track gate.
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이 특허에 인용된 특허 (13)
Heller ; Robert I. ; Schafer ; Larry C. ; McCracken ; Stephen R., Digital radar control system and method.
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