Technique for changing a range gate and radar coverage
First Claim
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1. A method of providing a detection coverage area in an automotive radar, the method comprising:
- (a) generating a plurality of adjacent receive antenna beams in the detection coverage area; and
(b) defining a shape of the detection coverage area by adjusting a maximum detection range of each of the plurality of adjacent receive antenna beams, wherein at least two of the plurality of adjacent receive antenna beams are provided having a different maximum detection range.
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Abstract
A radar detection process includes computing a derivative of an FFT output signal to detect an object within a specified detection zone. In one embodiment, a zero crossing in the second derivative of the FFT output signal indicates the presence of an object. The range of the object is determined as a function of the frequency at which the zero crossing occurs. Also described is a detection table containing indicators of the presence or absence of an object within a respective radar beam and processing cycle. At least two such indicators are combined in order to detect the presence of an object within the detection zone and with changing range gates in each of the antenna beams the coverage of the detection zone can be varied.
98 Citations
5 Claims
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1. A method of providing a detection coverage area in an automotive radar, the method comprising:
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(a) generating a plurality of adjacent receive antenna beams in the detection coverage area; and
(b) defining a shape of the detection coverage area by adjusting a maximum detection range of each of the plurality of adjacent receive antenna beams, wherein at least two of the plurality of adjacent receive antenna beams are provided having a different maximum detection range. - View Dependent Claims (2, 3, 4, 5)
(c) storing range bin data in a memory that corresponds to each of the plurality of adjacent receive antenna beams.
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3. The method of claim 2, further including:
(d) querying predetermined range bin data associated with at least a first beam of the plurality of adjacent receive antenna beams stored in the memory to define a range to be covered by the first beam.
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4. The method of claim 3, further including:
(e) repeating step (d) for each of the remaining beams of the plurality of adjacent receive antenna beams stored in the memory to define a range to be covered by each of the remaining beams.
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5. The method of claim 2, wherein adjusting the maximum detection range of each of the plurality of adjacent receive antenna beams includes querying a maximum level of range bin data from the memory that corresponds to each of the plurality of adjacent receive antenna beams.
Specification
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Current AssigneeValeo Radar Systems, Inc. (Valeo SE)
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Original AssigneeRaytheon Company (Rtx Corporation)
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InventorsPleva, Joseph S., Woodington, Walter Gordon, Russell, Mark E., Delcheccolo, Michael Joseph, Van Rees, H. Barteld
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Primary Examiner(s)Gregory, Bernarr E.
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Application NumberUS10/404,316Publication NumberTime in Patent Office588 DaysField of Search342/27, 342/28, 342/70, 342/71, 342/72, 342/89, 342/90-103, 342/118, 342/128-133, 342/175, 342/195, 342/196, 180/167, 180/168, 180/169US Class Current342/74CPC Class CodesB60K 31/0008 including means for detecti...B60Q 9/008 for anti-collision purposesB60T 2201/08 Lane monitoring; Lane Keepi...B60T 2201/081 using distance controlB60T 2201/088 using transmission controlB60W 2530/10 WeightB60W 2554/4043 Lateral speedB60W 2554/803 Relative lateral speedG01S 13/04 Systems determining presenc...G01S 13/282 using a frequency modulated...G01S 13/343 using sawtooth modulationG01S 13/346 using noise modulationG01S 13/48 using multiple beams at emi...G01S 13/584 adapted for simultaneous ra...G01S 13/726 Multiple target trackingG01S 13/87 Combinations of radar syste...G01S 13/931 of land vehiclesG01S 2013/0245 Radar with phased array ant...G01S 2013/9315 Monitoring blind spotsG01S 2013/9321 Velocity regulation, e.g. c...View All
