Apparatus and method for detecting and correcting for blockage of an automotive radar sensor
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01S-013/93
G01S-007/40
G01S-013/58
G01S-013/72
출원번호
US-0840902
(2015-08-31)
등록번호
US-10054672
(2018-08-21)
발명자
/ 주소
Fetterman, Matthew
Preussner, Jonathan
Carlsen, Aret
출원인 / 주소
Veoneer US, Inc.
대리인 / 주소
Burns & Levinson, LLP
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
An automotive radar system and method transmit a plurality of radar signals into a region, detect reflected radar signals, and convert the reflected radar signals into digital data signals. A plurality of range-Doppler maps for the region are generated from the digital data signals, and the pluralit
An automotive radar system and method transmit a plurality of radar signals into a region, detect reflected radar signals, and convert the reflected radar signals into digital data signals. A plurality of range-Doppler maps for the region are generated from the digital data signals, and the plurality of range-Doppler maps are averaged to generate an averaged range-Doppler map for the region. Data points in the averaged range-Doppler map are analyzed to detect blobs in the averaged range Doppler map. If a blob is detected in the averaged range-Doppler map, the radar detector is indicated to be unblocked.
대표청구항▼
1. An automotive radar system, comprising: a radar transmitter for transmitting a plurality of radar signals into a region;a radar detector for detecting reflected radar signals and converting the reflected radar signals into digital data signals; anda processor that receives the digital data signal
1. An automotive radar system, comprising: a radar transmitter for transmitting a plurality of radar signals into a region;a radar detector for detecting reflected radar signals and converting the reflected radar signals into digital data signals; anda processor that receives the digital data signals, generates a plurality of range-Doppler maps for the region over time and averages the plurality of range-Doppler maps to generate an averaged range-Doppler map for the region; whereinthe processor analyzes data points in the averaged range-Doppler map to detect blobs in the averaged range Doppler map; and whereinif a blob is detected in the averaged range-Doppler map by the processor, the radar detector is indicated by the processor to be unblocked. 2. The automotive radar system of claim 1, wherein, if a blob is not detected in the averaged range-Doppler map by the processor, the radar detector is indicated by the processor to be blocked. 3. The automotive radar system of claim 1, wherein a blob in the averaged range-Doppler map is considered by the processor to be due to radar returns from an extended object which is stationary with respect to a ground surface in an environment in which the automotive radar system is operating. 4. The automotive radar system of claim 3, wherein the extended object is a surface of a road on which the host vehicle is traveling. 5. The automotive radar system of claim 3, wherein the extended object is a curb along a side of a road on which the host vehicle is traveling. 6. The automotive radar system of claim 1, wherein the plurality of range-Doppler maps comprise 150 range-Doppler maps. 7. The automotive radar system of claim 1, wherein the radar signals have a frequency of approximately 77 GHz. 8. The automotive radar system of claim 1, wherein, for each data point in the averaged range-Doppler map, the processor compares a value of the data point with a first threshold value. 9. The automotive radar system of claim 8, wherein, if the value of the data point exceeds the first threshold, the processor compares values of a plurality of neighboring data points in the averaged range-Doppler map to a second threshold value. 10. The automotive radar system of claim 9, wherein, if the values of the neighboring data points exceed the second threshold value, then the processor identifies the data point as a point in a blob. 11. The automotive radar system of claim 10, wherein, if a quantity of neighboring data points identified as points in a blob exceeds a predetermined threshold, then the processor determines that the neighboring data points constitute a blob. 12. The automotive radar system of claim 1, wherein the processor ceases analyzing data points in the averaged range-Doppler map if the radar system detects an object in the region that is unrelated to any blob detected in the averaged range-Doppler map. 13. A method of processing in an automotive radar system, the method comprising: transmitting a plurality of radar signals into a region;detecting reflected radar signals and converting the reflected radar signals into digital data signals;generating from the digital data signals a plurality of range-Doppler maps for the region over time;averaging the plurality of range-Doppler maps to generate an averaged range-Doppler map for the region;analyzing data points in the averaged range-Doppler map to detect blobs in the averaged range Doppler map; andif a blob is detected in the averaged range-Doppler map, indicating the radar detector to be unblocked. 14. The method of claim 13, wherein, if a blob is not detected in the averaged range-Doppler map, the radar detector is indicated to be blocked. 15. The method of claim 13, wherein a blob in the averaged range-Doppler map is considered to be due to radar returns from an extended object which is stationary with respect to a ground surface in an environment in which the automotive radar system is operating. 16. The method of claim 15, wherein the extended object is a surface of a road on which the host vehicle is traveling. 17. The method of claim 15, wherein the extended object is a curb along a side of a road on which the host vehicle is traveling. 18. The method of claim 13, wherein the plurality of range-Doppler maps comprise 150 range-Doppler maps. 19. The method of claim 13, wherein the radar signals have a frequency of approximately 77 GHz. 20. The method of claim 13, wherein analyzing data points in the averaged range-Doppler map comprises, for each data point in the averaged range-Doppler map, comparing a value of the data point with a first threshold value. 21. The method of claim 20, wherein analyzing data points in the averaged range-Doppler map comprises, if the value of the data point exceeds the first threshold, comparing values of a plurality of neighboring data points in the averaged range-Doppler map to a second threshold value. 22. The method of claim 21, wherein analyzing data points in the averaged range-Doppler map comprises, if the values of the neighboring data points exceed the second threshold value, identifying the data point as a point in a blob. 23. The method of claim 22, wherein analyzing data points in the averaged range-Doppler map comprises, if a quantity of neighboring data points identified as points in a blob exceeds a predetermined threshold, determining the neighboring data points to constitute a blob. 24. The method of claim 13, wherein analyzing data points in the averaged range-Doppler map is stopped if an object that is unrelated to any blob detected in the averaged range-Doppler map is detected in the region.
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이 특허에 인용된 특허 (5)
Gregory George Lajiness ; Stephen William Alland ; James Fredrick Searcy, Apparatus and method for detecting radar obstruction.
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