Apparatus and method for detecting and correcting for blockage of an automotive radar sensor

The invention claimed is: 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; and a 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; wherein the processor analyzes data points in the averaged range-Doppler map to detect blobs in the averaged range Doppler map; and wherein if 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; and if 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.