Doppler complex FFT police radar with direction sensing capability
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Abstract
A series of police doppler single mode radars and a multimode police doppler radar, all with direction sensing capability are disclosed. A duadrature front end which mixes received RF with a local oscillator to generate two channels of doppler signals, one channel being shifted by an integer multiple of 90 degrees in phase relative to the other by shifting either the RF or the local oscillator signal being fed to one mixer but not the other. The two doppler signals are digitized and the samples are processed by a digital signal processor programmed to find one or more selected target speeds. Single modes disclosed are: stationary strongest target; stationary, fastest target; stationary, strongest and fastest targets; moving, strongest, opposite lane; moving, strongest, same lane; moving, fastest, opposite lane; moving, fastest and strongest, opposite lane; moving, fastest, same lane; moving fastest and strongest, same lane.
37 Citations
36 Claims
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1-32. -32. (CANCELED)
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33. Traffic surveillance radar apparatus having directional sensing and indication capability, comprising:
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an antenna assembly for (a) transmitting radar waves of given oscillator frequency toward moving traffic targets that are both approaching and receding from said radar apparatus, (b) receiving radar waves reflected from said moving traffic targets, and (c) generating doppler shifted RF signals representative of said received radar waves;
a mixer assembly, comprising first and second mixers with phase shift means coupled between said first and second mixers, for mixing signals having the said oscillator frequency with said doppler shifted RF signals to respectively produce first and second sets of signals at the outputs of said first and second mixers, said first and second sets of signals including doppler signals having a frequency equal to the difference between said oscillator frequency and said doppler shifted RF signals;
means for converting said first and second sets of doppler signals into digital samples; and
a digital signal processor programmed to (a) perform a fast fourier transform on said digital samples, to determine therefrom the speed of selected ones of said moving targets and the direction of travel whether said selected ones of said moving targets are approaching or receding from said radar apparatus, and (b) display the speed of at least one of the selected ones of said moving targets and an indication of the direction of travel of the target having the displayed speed.
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36. A process carried out by traffic surveillance radar apparatus capable of determining the speed of moving traffic targets and the relative direction of travel of said moving traffic targets relative to said radar apparatus, comprising:
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(a) transmitting radar waves of a given frequency toward at least moving traffic targets approaching and receding from the radar apparatus;
(b) receiving radar waves reflected from said moving traffic targets and generating doppler shifted RF signals representative of said received radar waves;
(c) mixing a signal of said given frequency with said doppler shifted RF signals in a first mixer to generate, in a first channel, a first set of signals at the output of said first mixer, the output signals from said first mixer including doppler signals having a frequency equal to the difference between said given frequency and said doppler shifted RF signals;
(d) mixing a signal of said given frequency with said doppler shifted RF signals in a second mixer to generate, in a second channel, a second set of signals at the outputs of said second mixer, the output signals from said second mixer including doppler signals having a frequency equal to the difference between said given frequency and said doppler shifted RF signals, in which either the signal of given frequency or the doppler shifted RF signals supplied to the second mixer are shifted in phase relative to the phase of the signal of given frequency or the doppler shifted RF signals, respectively, that are supplied to said first mixer;
(e) converting said first and second sets of doppler signals into digital samples;
(f) performing a fast fourier transform on said digital samples to determine therefrom the speed of selected ones of said moving targets as well as the direction of travel of said moving targets with respect to said radar apparatus; and
(g) displaying the speed of at least one of the selected ones of said moving targets as well as an indication of the direction of travel of the target having the displayed speed.
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Specification