Near obstacle detection system
First Claim
1. A narrow bandwidth frequency modulated radar system for measuring the range to an object, the system comprising in combination:
- means for transmitting a frequency modulated radar signal;
means for receiving the transmitted radar signal reflected from the object;
means for mixing the transmitted and received radar signals to generate an IF signal;
means for determining (A) the value of the DC component of the IF signal and (B) the value of each of the harmonic frequency components of the IF signal, andmeans for indicating the range (A) in accord with the frequency components when the value of the DC component is less than a predetermined value and (B) in accord with the DC component when the value of the DC component is greater than the predetermined value.
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Accused Products
Abstract
In a radar system, an RF signal is transmitted at a frequency modulated by a sawtooth signal. The transmitted RF signal is mixed with the transmitted signal reflected from an object. The resulting IF signal is analyzed into a Fourier series having a DC coefficient and harmonic frequency coefficients. The range to the object is determined from the harmonic frequency coefficients in multiples of the range resolution determined by the RF bandwidth of the system when the DC coefficient is less than each of the harmonic frequency coefficients. The range to the object is determined to be within 1/2 the range resolution determined by the RF bandwidth when the DC coefficient is greater than each of the harmonic frequency coefficients.
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Citations
11 Claims
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1. A narrow bandwidth frequency modulated radar system for measuring the range to an object, the system comprising in combination:
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means for transmitting a frequency modulated radar signal; means for receiving the transmitted radar signal reflected from the object; means for mixing the transmitted and received radar signals to generate an IF signal; means for determining (A) the value of the DC component of the IF signal and (B) the value of each of the harmonic frequency components of the IF signal, and means for indicating the range (A) in accord with the frequency components when the value of the DC component is less than a predetermined value and (B) in accord with the DC component when the value of the DC component is greater than the predetermined value. - View Dependent Claims (2, 3, 4)
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5. A narrow bandwidth frequency modulated radar system for measuring the range to an object, the system comprising in combination:
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means for transmitting a frequency modulated radar signal having a frequency varying linearly from a frequency f1 to a frequency f2, the value f2 -f1 comprising an RF bandwidth of the radar system establishing a minimum range resolution of L; means for receiving the transmitted radar signal reflected from the object; means for mixing the transmitted and received radar signals to generate an IF signal; means for analyzing the IF signal into a Fourier series having a DC coefficient representing a DC component of the IF signal and harmonic frequency coefficients each representing a value of a respective harmonic frequency component of the IF signal, the harmonic frequency coefficients representing the frequency of the IF signal; means for indicating the range to the object in multiples of the minimum range resolution L in accord with the frequency of the IF signal represented by the harmonic frequency coefficients when the DC coefficient is less than a predetermined value; and means for indicating a range to the object within 1/2 the range resolution L when the value of the DC coefficient is greater than the predetermined value, whereby an indication of the range to an object within 1/2 of the minimum range resolution of the radar system established by the RF bandwidth is provided. - View Dependent Claims (6, 7)
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8. A narrow bandwidth frequency modulated radar system for measuring the range to an object, the system comprising in combination:
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means for transmitting a frequency modulated radar signal having a frequency varying linearly from a frequency f1 to a frequency f2 over a time period T, the value f2 -f1 comprising an RF bandwidth of the radar system and establishing a range resolution L that is defined by the expression C/2(f2 -f1); means for receiving the transmitted radar signal reflected from the object; means for mixing the transmitted and received radar signals to generate an IF signal; means for analyzing the IF signal into a Fourier series having a DC coefficient CO representing a DC component of the IF signal and a harmonic frequency coefficient Cn for each frequency component ω
n of the IF signal, where n is an integer greater than zero and ω
n is equal to 2π
n/T; andmeans for indicating a range to the object equal to mL when the DC coefficient CO is less than a predetermined value, where m is equal to the integer value of n corresponding to the first harmonic frequency coefficient Cn greater than the predetermined value and indicating a range to the object within L/2 when the DC coefficient CO is greater than the predetermined value, whereby the minimum detectable range is less than the range resolution L of the radar system established by the RF bandwidth.
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9. A narrow bandwidth frequency modulated radar system for measuring the range to an object, the system comprising in combination:
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means for repeatedly generating a sawtooth waveform frequency modulated radar signal having a frequency varying linearly from a frequency f1 to a frequency f2 over a time period T, the value f2 -f1 comprising an RF bandwidth of the radar system and establishing a range resolution L that is defined by the expression C/2(f2 -f1); means for transmitting the generated radar signal; means for receiving the transmitted radar signal reflected from the object; means for generating a local oscillator signal from the generated radar signal having alternating 0 degree and 90 degree phase shifts relative to the generated radar signal with successive sawtooth waveforms; means for mixing the local oscillator signal and the received radar signals to generate an IF signal for each generated sawtooth waveform; means for (A) analyzing the IF signal when the local oscillator signal has a 0 degree phase shift into a Fourier series having a DC coefficient AO representing a DC component of the IF signal and harmonic frequency quadrature components An and Bn for each frequency component ω
n of the IF signal, where n is an integer greater than zero and ω
n is equal to 2π
n/T, (B) analyzing the IF signal when the local oscillator signal has a 90 degree phase shift into a Fourier series having a DC coefficient BO representing a DC component of the IF signal and a harmonic frequency quadrature components An and Bn for each frequency component of the IF signal, and (C) determining a Fourier series DC coefficient CO and harmonic frequency coefficients Cn where CO is equal to the square root of the sum of the squares of AO and BO and Cn is equal to the square root of the sum of the squares of An and Bn for each integer value of n; andmeans for indicating a range to the object equal to mL when the DC coefficient CO is less than a predetermined value, where m is equal to the integer value of n corresponding to the first harmonic frequency coefficient Cn greater than the predetermined value and indicating a range to the object within L/2 when the DC coefficient CO is greater than the predetermined value, whereby the minimum detectable range is less than the range resolution L of the radar system established by the RF bandwidth.
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10. A narrow bandwidth frequency modulated radar system for measuring the range to an object, the system comprising in combination:
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means for repeatedly generating a sawtooth waveform frequency modulated radar signal having a frequency varying linearly from a frequency f1 to a frequency f2 over a time period T, the value f2 -f1 comprising an RF bandwidth of the radar system and establishing a range resolution L that is defined by the expression C/2(f2 -f1); a transmitter for transmitting the generated radar signal; a receiver for receiving the transmitted radar signal reflected from the object; means for providing a local oscillator signal from the frequency modulated radar signal; means for mixing the local oscillator signal and the received radar signal to generate an IF signal; a variable gain amplifier for amplifying the IF signal; means for controlling the gain of the amplifier so as to establish a constant peak-to-peak amplitude of the amplified IF signal; means for analyzing the amplified IF signal into a Fourier series having a DC coefficient representing a DC component of the amplified IF signal and harmonic frequency coefficients each representing a value of a respective harmonic frequency component of the amplified IF signal; means for indicating the range to the object in multiples of the minimum range resolution L in accord with a frequency of the IF signal represented by the harmonic frequency coefficients when the DC coefficient is less than a predetermined value; and means for indicating a range to the object within 1/2 the range resolution L when the value of the DC coefficient is greater than the predetermined value, whereby an indication of the range to an object within 1/2 of the minimum range resolution of the radar system established by the RF bandwidth is provided.
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11. A method of measuring the range to an object, the method comprising the steps of:
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repeatedly generating a sawtooth waveform frequency modulated radar signal having a frequency varying linearly from a frequency f1 to a frequency f2 over a time period T, the value f2 -f1 comprising an RF bandwidth of the radar system and establishing a range resolution L that is defined by the expression C/2(f2 -f1); transmitting the generated radar signal; receiving the transmitted radar signal reflected from the object; generating a local oscillator signal from the generated radar signal having alternating 0 degree and 90 degree phase shifts relative to the generated radar signal with successive sawtooth waveforms; mixing the local oscillator signal and the received radar signals to generate an IF signal for each generated sawtooth waveform; analyzing the IF signal when the local oscillator signal has a 0 degree phase shift into a Fourier series having a DC coefficient AO representing a DC component of the IF signal and harmonic frequency quadrature components An and Bn for each frequency component ω
n of the IF signal, where n is an integer greater than zero and ω
n is equal to 2π
n/T;analyzing the IF signal when the local oscillator signal has a 90 degree phase shift into a Fourier series having a DC coefficient BO representing a DC component of the IF signal and harmonic frequency quadrature components An and Bn for each frequency component of the IF signal; determining the Fourier series DC coefficient CO and harmonic frequency coefficients Cn where CO is equal to the square root of the sum of the squares of AO and BO and Cn is equal to the square root of the sum of the squares of An and Bn for each integer value of n; and indicating a range to the object equal to mL when the DC coefficient CO is less than a predetermined value, where m is equal to the integer value of n corresponding to the first harmonic frequency coefficient Cn greater than the predetermined value and indicating a range to the object within L/2 when the DC coefficient CO is greater than the predetermined value, whereby the minimum detectable range is less than the range resolution L of the radar system established by the RF bandwidth.
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Specification