Wideband radar detector
First Claim
1. A method for discriminating between valid and invalid wide Ka band police radar signals with a radar detection apparatus, wherein the radar detection apparatus includes an antenna for receiving an incoming signal, a voltage controlled oscillator for generating a sweeping signal, a mixer for mixing the incoming signal with the sweeping signal to form an intermediate signal, a down converter and a demodulator for processing the intermediate signal and thereby generating an output signal for any incoming signal that falls within a predetermined frequency range, wherein the output signal is a pair of single cycle sinusoids having a characteristic time spacing therebetween, and a processor for evaluating the output signal and generating an alarm signal, said method comprising the single step of evaluating the time spacing between sinusoids, wherein a valid wide Ka band signal is present when one pair of single period sinusoids are present in the predetermined range and an invalid wide Ka band signal is present when multiple pairs of single period sinusoids are present in the predetermined range, said multiple pairs of sinusoids having time spacings that correspond to harmonic frequencies of incoming signals other than wide Ka band signals.
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Abstract
A wideband radar detection apparatus includes a signal detection section, high rate signal processing section and a low rate signal processing section. The signal detection section sweeps through a range of preselected frequencies and generates an output signal having a pair of single cycle sinusoids for every detected signal. The output signal is provided to the high rate signal processing section and a Sliding Window Discrete Fourier Transform is performed thereon to generate a set of complex values that are related to the fundamental energy content at consecutive points in the sweep. The low rate signal processing section controls sweep parameters and also evaluates the complex values. If the magnitude of the complex values exceed a predefined threshold, then an alert is indicated.
89 Citations
11 Claims
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1. A method for discriminating between valid and invalid wide Ka band police radar signals with a radar detection apparatus, wherein the radar detection apparatus includes an antenna for receiving an incoming signal, a voltage controlled oscillator for generating a sweeping signal, a mixer for mixing the incoming signal with the sweeping signal to form an intermediate signal, a down converter and a demodulator for processing the intermediate signal and thereby generating an output signal for any incoming signal that falls within a predetermined frequency range, wherein the output signal is a pair of single cycle sinusoids having a characteristic time spacing therebetween, and a processor for evaluating the output signal and generating an alarm signal, said method comprising the single step of evaluating the time spacing between sinusoids, wherein a valid wide Ka band signal is present when one pair of single period sinusoids are present in the predetermined range and an invalid wide Ka band signal is present when multiple pairs of single period sinusoids are present in the predetermined range, said multiple pairs of sinusoids having time spacings that correspond to harmonic frequencies of incoming signals other than wide Ka band signals.
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2. A radar detection apparatus for processing incoming radar signals, comprising:
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means for receiving the incoming signal; means for generating a sweeping signal; means for mixing the incoming signal with the sweeping signal to form an intermediate signal; means for down converting and demodulating the intermediate signal to form an output signal for any incoming signal that falls within a predetermined frequency range, wherein the output signal is a pair of single period sinusoids having a characteristic time spacing therebetween; and means for evaluating the time spacing between each sinusoid pair, wherein a valid wide Ka band signal is present when only one sinusoid pair is present in the predetermined frequency range and an invalid wide Ka band signal is present when multiple pairs of sinusoids are present in the predetermined frequency range, each of said multiple pairs of sinusoids having time spacings therebetween that correspond to harmonic frequencies of incoming signals other than wide Ka band signals.
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3. A radar signal detector comprising:
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detection means for detecting a signal in the X, K, and Ka signal bands; demodulating means for down converting the signal detected by said detection means and producing an output signal, wherein said output signal is a pair of single period sinusoids; high rate processing means for receiving the output signal and for calculating a Discrete Fourier Transform ("DFT") of the output signal; and low rate processing means for evaluating the DFT calculated by the high rate processing means to determine whether the output signal represents a valid radar signal. - View Dependent Claims (4, 5, 6, 7, 8)
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9. A radar signal detection apparatus, comprising:
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an antenna for receiving an incoming signal; a voltage controlled oscillator for generating a sweeping signal; a mixer for mixing the incoming signal with the sweeping signal to form an intermediate signal; a down converter for processing the intermediate signal and thereby generating an output signal for any incoming signal that falls within a predetermined frequency range, wherein the output signal is a pair of single cycle sinusoids having a characteristic time spacing therebetween; high rate processing means for calculating a Discrete Fourier Transform for the output signal and for generating a set of complex values therefrom; and low rate processing means for evaluating the set of complex values, wherein a valid radar signal exists when the magnitude of the complex values exceeds a predetermined threshold.
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10. A radar detector, comprising:
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an antenna for receiving an incoming signal; a first oscillator for generating a sweeping signal; a first mixer coupled to the antenna and to the first oscillator, said first mixer generating a first intermediate signal; a first amplifier coupled to the first mixer; a second mixer coupled to the first amplifier; a second amplifier coupled to the first mixer; a summing circuit coupled to the second mixer and to the second amplifier; a third amplifier coupled to the summing circuit; a bandpass filter coupled to the third amplifier; a quadrature detector coupled to the bandpass filter for generating an output signal for any incoming signal that falls within a predetermined frequency range, wherein the output signal is a pair of single cycle sinusoids having a characteristic time spacing therebetween; high rate processing means coupled to the quadrature detector for calculating a Discrete Fourier Transform for the output signal and for generating a set of complex values therefrom; and low rate processing means coupled to the high rate processing means for evaluating the set of complex values, wherein a valid radar signal exists when the magnitude of the complex values exceeds a predetermined threshold.
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11. A method for discriminating between valid and invalid wide Ka band police radar signals, comprising:
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receiving an incoming signal; mixing the incoming signal with a sweeping signal to form an intermediate signal; down converting and demodulating the intermediate signal to thereby generate an output signal for any incoming signal that falls within a predetermined frequency range, said output signal having at least a primary peak pair of single cycle sinusoids having a characteristic time spacing therebetween; and evaluating the output signal to determine whether a valid Ka signal exists, wherein if the output signal has only the primary peak pair with the characteristic time spacing then a valid Ka signal exists, and wherein if the output signal also has a plurality of secondary peak pairs of single cycle sinusoids present within a predefined time spacing of the primary peak pair, then a valid Ka signal is present if the time spacing of the primary peak pair is within a predefined range and if the amplitude of the primary peak pair is greater than or equal to twice the amplitude of the secondary peak pairs.
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Specification