Radar method and apparatus
First Claim
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1. A directional radar apparatus for detecting objects in a detection cone and rejecting carrier waves reflected by objects located outside the detection cone, comprising:
- means for radiating carrier waves from a radiating position;
means for receiving, at a receiving position, carrier waves returned by reflection from at least one object within the broadcast range of the radiating means;
means for repetitively moving one of the radiating or receiving positions on a line which lies on the extended axis of the detection cone to induce directionally dependent frequency modulation in the carrier waves due to the Doppler effect; and
means for selecting carrier waves reflected by objects inside the detection cone, including filter means for blocking received carrier waves having an induced frequency modulation less than a predetermined value.
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Abstract
The disclosure relates to radar methods and systems for directionally selective detection of objects and determination of the distances to the objects. A rectangular-wave frequency-shifted radar signal is employed. This radar signal may be generated by inducing a directionally dependent Doppler shift which permits directionally selective detection. Higher and lower frequency portions of the returned radar signal are separately frequency converted and phase compared to determine range. In a preferred embodiment, a collision avoidance system for automobiles is provided.
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Citations
20 Claims
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1. A directional radar apparatus for detecting objects in a detection cone and rejecting carrier waves reflected by objects located outside the detection cone, comprising:
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means for radiating carrier waves from a radiating position; means for receiving, at a receiving position, carrier waves returned by reflection from at least one object within the broadcast range of the radiating means; means for repetitively moving one of the radiating or receiving positions on a line which lies on the extended axis of the detection cone to induce directionally dependent frequency modulation in the carrier waves due to the Doppler effect; and means for selecting carrier waves reflected by objects inside the detection cone, including filter means for blocking received carrier waves having an induced frequency modulation less than a predetermined value. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. An apparatus for determining the distance of an object comprising the steps of:
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means for broadcasting a periodic rectangular-wave frequency-shift modulated carrier wave, said carrier wave having alternating higher and lower frequency portions; means for receiving the frequency modulated phase-shifted carrier wave reflected from the object; means for mixing the higher frequency portions of the received carrier wave with portions of the broadcast carrier wave to produce an IF signal having a frequency within a predetermined range; means for separately mixing the lower frequency portions of the received carrier wave with other portions of the broadcast carrier wave to produce an IF signal having a frequency within the predetermined range; and means for producing a signal related in value to the distance of the object responsive to the difference between the average phases, over a predetermined time interval, of the IF signals.
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9. A method for detecting objects in the path of a moving vehicle comprising the steps of:
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radiating carrier waves from a radiating position carried by the vehicle; receiving at a receiving position carried by the vehicle carrier waves returned to the vehicle by reflection from objects in proximity to the vehicle; repetitively moving one of the radiating and receiving positions with respect to the vehicle at a uniform velocity along a line of motion having a predetermined orientation with respect to the vehicle; and detecting carrier waves reflected by an object in the path of the vehicle by filtering the returned carrier waves to select carrier waves having the frequency characteristics of carrier waves radiated in directions deviating from the direction of motion of the vehicle by less than a preselected angle determined by the band width of the filtering. - View Dependent Claims (10)
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11. A method of inhibiting collision between a moving vehicle and an object in the path of the vehicle comprising the steps of:
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radiating carrier waves from a radiating position carried by the vehicle; receiving at a receiving position, carried by the vehicle, carrier waves returned to the vehicle by reflection from objects in proximity to the vehicle; repetitively moving one of the radiating and receiving positions with respect to the vehicle at a uniform velocity along a line of motion having a predetermined orientation with respect to the vehicle, to induce, by the Doppler effect, higher frequency and lower frequency portions in the received signal; detecting carrier waves reflected by an object in the path of the vehicle by frequency-shifting separately down the same intermediate frequency the higher frequency and the lower frequency portions of the returned carrier waves and filtering to select carrier waves having the frequency characteristics of carrier waves radiated in directions deviating from the direction of motion of the vehicle by less than a preselected angle determined by the bandwidth of the filtering; measuring the phase difference between the selected carrier waves; determining the range of the object responsive to said measured phase difference; measuring the Doppler shift of a signal, returned by the object, due to relative motion between the vehicle and the object; determining the range rate of the object responsive to said measured Doppler shift; and controlling the motion of the vehicle responsive to the occurance of predetermined combinations of range and range rate of the object. - View Dependent Claims (12, 13, 14, 15, 16)
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17. A method for identifying objects in a detection cone having a vertex angle φ
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generating a carrier wave having a radio frequency fo ; generating a rectangular wave of repetitive frequency fm, lower than fo ; radiating the carrier wave from a radiating position moved repetitively responsive to the rectangular wave at a uniform velocity back and forth along a straight line of motion lying along the extended axis of the detection cone, to induce a directionally dependent Doppler shift in the radiating carrier wave such that carrier waves radiated on the detection cone axis alternately shift in frequency between a higher frequency, fo +Δ
f, and a lower frequency fo -Δ
f, Δ
f being the Doppler induced frequency shift;locally providing a periodic rectangular-wave frequency-shift modulated wave responsive to said generated rectangular wave, shifted between a higher frequency, fo -fif +Δ
f, and a lower frequency fo -fif =Δ
f, where fif is an intermediate frequency greater than fm ;receiving the radiated carrier waves reflected by objects within the broadcast range of the carrier waves; mixing the higher frequency portions of the received carrier waves with lower frequency portions of the locally provided wave to produce a first IF signal; and filtering the first IF signal by means of a filter having a bandwidth, Bf, centered at fif, the bandwidth Bf being selected to reject IF signals having a frequency lower than fif -Bf /2, corresonding to the reduction in the Doppler shift of the carrier waves at the angle φ
from the cone axis;whereby the filtered IF signal provides an indication that an object is located in the detection cone. - View Dependent Claims (18)
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19. A method for determining the distance to an object comprising the steps of:
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broadcasting a carrier wave having abrupt frequency shifts; receiving the carrier wave returned by reflection from the object; frequency converting a higher frequency portion of the received carrier wave to produce a first signal within a predetermined frequency range; separately frequency converting a lower frequency portion of the received carrier wave to produce a second signal within the same predetermined frequency range; and producing a signal related in value to the distance of the object responsive to the phase difference between the first and second signals.
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20. A directional radar apparatus for detecting objects in a detection zone and rejecting carrier waves reflected by objects located outside the detection zone, comprising:
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means for radiating carrier waves from a radiating position; means for receiving, at a receiving position, carrier waves returned by reflection from at least one object within the broadcast range of the radiating means; means for repetitively moving one of the radiating or receiving positions on a line which has a predetermined orientation with respect to a reference axis of the detection zone to induce directionally dependent frequency modulation in the carrier waves due the Doppler effect; and means for selecting carrier waves reflected by objects inside the detection zone, including filter means for blocking received carrier waves having an induced frequency modulation outside of a predetermined range.
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Specification
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Current AssigneeElie J. Baghdady
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Original AssigneeElie J. Baghdady
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InventorsBaghdady, Elie J.
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Primary Examiner(s)Wilbur, Maynard R.
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Assistant Examiner(s)Berger, Richard E.
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Application NumberUS05/931,000Time in Patent Office648 DaysField of Search343/17.5, 343/14, 343/113 DE, 343/108 MUS Class Current342/71CPC Class CodesG01S 13/10 using transmission of inter...G01S 13/348 using square or rectangular...G01S 13/50 Systems of measurement base...G01S 13/931 of land vehiclesG01S 2013/93185 Controlling the brakesG01S 2013/932 using own vehicle data, e.g...G01S 2013/9323 Alternative operation using...G01S 2013/9325 for inter-vehicle distance ...G01S 2013/93271 in the front of the vehiclesG01S 7/411 Identification of targets b...
