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Title: VIP doppler filter bank signal processor for pulse doppler radar
Claims: What we claim is: 1. In a pulse doppler radar system, the combination comprising: means for generating radar pulses at predetermined variable interpulse periods; means for receiving the echo pulses; means for converting the sampled pulses to digital words; a plurality of digital filters, each filter having I and Q components; said plurality of digital filters being operative to receive the digital words in sequence at the sample times, each of said filters being constituted to provide attenuation to pulse echoes from objects less than a predetermined velocity over a different predetermined doppler frequency band, each said filter having a single rejection notch, the width of which is a large fraction of the reciprocal of the average period between the sampled pulses, each said filters being constituted also to provide substantially no attenuation to pulse echoes having doppler frequencies greater than the reciprocal of said average period; means responsive to clutter interference in each filter to desensitize the outputs of the respective filter to prevent false alarms from clutter; and means to detect the output values of the desensitizing means. 2. In a system according to claim 1 wherein each of said digital filters includes means to weight a plurality of echo pulse digital words to provide said attenuation characteristics. 3. In a system according to claim 2 wherein the weighting means includes weights selected to have similar clutter notch characteristics regardless of the particular time in the variable interpulse period sequence its respective filter output is generated. 4. In a system according to claim 1 wherein the detection means for the output of the desensitizing means includes means to combine the output of each desensitizing means, and means to detect the combined output when the output is above a predetermined threshold value. 5. In a pulse doppler radar system, the combination comprising: means for generating radar pulses at time intervals having variable interpulse periods; means for receiving the pulse echoes; means for converting the pulse echoes to digital words; a plurality of digital filters each having I and Q components, including a storing means operative to store a plurality of input digital words; each said filter having a single rejection notch, the width of which is a large fraction of the reciprocal of the average period between transmitted pulses to provide substantial attenuation to signals over predetermined doppler frequency bands having widths less than the reciprocal of the average period between transmitted pulses and substantially no attenuation to echo pulses having doppler frequencies greater than the reciprocal of the average period; means to store a set of weighting coefficients for each filter, each coefficient being selected to reject echo pulses of predetermined doppler frequencies when applied to a predetermined plurality of stored digital words; means to multiply a predetermined set of the stored weighting coefficients by the stored digital words the weighting coefficients being selected in accordance with the variable interpulse periods of transmission of the echo pulses corresponding to the time separation of the digital words in each filter; means to output the sum of the weighted words of each filter; means for each filter responsive to the weighted words representative of clutter interference to desensitize the filter output to prevent excessive clutter false alarm; means to integrate the outputs of the desensitizing means; and means to detect the integrated outputs above a predetermined threshold value. 6. In a system according to claim 5, further comprising: a second means for storing at least one digital word, means for applying weighting coefficients to the stored words and the most recent digital word to occur to improve clutter rejection, and means for outputting the sum of the weighted digital words to each of the filters. 7. In an MTI system according to claim 6 wherein the second means is operative to store at least two digital words. 8. In a system according to claim 6 wherein the weights of the second means vary in accordance with the interpulse period variation of the transmitted radar pulses. 9. In a system according to claim 5 wherein the sets of weights correspond to at least five distinct filters each having different clutter rejection characteristics. 10. In a system according to claim 5 further comprising zero velocity filter means, the output of which is summed with the output of the desensitizing means. Other info: Inventors: Taylor, Jr., John W. (Baltimore, MD, US) Martin, Raymond G. (Ellicott City, MD, US) Application Number: 792279 Filing Date: 1977-04-29 Publication_date: 1979-01-30 Assignee: Westinghouse Electric Corp. (Pittsburgh, PA) Primary Class(es): 342/93 342/137, 342/162, 342/194 Other Classes: US Patent Ref:
Other Refs: Primary Examiner: Wilbur, Maynard R. Assistant Examiner: Goodwin, Lawrence Attorney: Patterson; H. W. |
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