Claims
- 1. A method of detecting objects with an automotive radar, comprising:
- a. generating a continuous wave RF signal comprising a repetitive sequence of frequencies, wherein the duration of each element of the sequence is sufficient to propagate round trip to the target from the radar, the sequence of frequencies in said repetitive sequence is random and the sequence of frequencies is uniformly spaced when monotonically reordered;
- b. illuminating the object with said continuous wave RF signal;
- c. receiving the component of said RF signal reflected by the object so as to form a received signal;
- d. measuring the complex amplitude of said received signal for each element of said repetitive sequence so as to form a first list of complex amplitudes;
- e. collecting said complex amplitudes for similar frequency elements of said repetitive sequence so as to form a second list of complex amplitudes;
- f. calculating the Doppler shift of said received signal from a spectral analysis of said second list of complex amplitudes;
- g. removing said Doppler shift from said first list of complex amplitudes so as to form a third list of complex amplitudes;
- h. reordering said third list of complex amplitudes in order of increasing transmitted frequency for each said sequence of frequencies so as to form an equivalent LFM received signal;
- i. forming a reordered representation of the transmitted RF signal in order of increasing transmitted frequency so as to form an equivalent LFM transmitted signal;
- j . comparing said equivalent LFM received signal with said equivalent LFM transmitted signal so as to determine the range to the object.
CROSS-REFERENCE TO RELATED APPLICATIONS
The instant application claims the benefit of prior U.S. Provisional Application Ser. No. 60/035,453 filed Jan. 17, 1997.
US Referenced Citations (15)
Non-Patent Literature Citations (2)
Entry |
"New Ideas in FM Radar", H.D. Griffiths, Electronics and Communications Engineering Journal, Oct. 1990, pp. 185-194. |
"Linear FMCW radar techniques", A.G. Stone, IEEE Proceedings-F. vol. 139 No. 5, Oct. 1992, pp. 393-350. |