Ultra-sonic sensor system for monitoring rolling and/or pitching motion of vehicle
First Claim
1. An ultra-sonic sensor system comprising:
- a transmitter transmitting ultra-sonic waves toward an object;
a receiver receiving ultra-sonic waves reflected by the object and producing a receiver signal having a value depending upon the intensity of the received reflected ultra-sonic waves;
means for detecting the timing at which said receiver signal reaches a specific relationship with a peak of said receiver signal and thereby specifying a reception timing of the reflected ultra-sonic waves; and
means for deriving a distance value based on the elapsed time between transmission of the ultra-sonic waves toward said object and said reception timing.
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Accused Products
Abstract
An ultra-sonic senor system suitable for monitoring movement of a vehicle, relative to the horizontal employs two or more coordinated ultra-sonic sensors. The sensors may be mounted at opposite ends or on opposite sides of the vehicle, depending on whether pitch or roll respectively is to be monitored. Each sensor broadcasts ultra-sonic waves and receives ultra-sonic waves reflected by the road surface. The transmission time is known; the reception time is measured upon detection of the peak of the reflected waves. The difference between the two above times yields the distance between the vehicle and the road. The difference between the distances measured by two sensor yields the inclination of the vehicle relative to the horizontal plane.
48 Citations
15 Claims
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1. An ultra-sonic sensor system comprising:
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a transmitter transmitting ultra-sonic waves toward an object; a receiver receiving ultra-sonic waves reflected by the object and producing a receiver signal having a value depending upon the intensity of the received reflected ultra-sonic waves; means for detecting the timing at which said receiver signal reaches a specific relationship with a peak of said receiver signal and thereby specifying a reception timing of the reflected ultra-sonic waves; and means for deriving a distance value based on the elapsed time between transmission of the ultra-sonic waves toward said object and said reception timing. - View Dependent Claims (2, 3)
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4. An ultra-sonic sensor system adapted for monitoring a vehicular body profile, comprising:
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a first ultra-sonic sensor including a first transmitter and a first receiver which is adapted to receive ultra-sonic waves reflected by a road surface and to produce a receiver signal having a value depending upon the intensity of the received ultra-sonic waves; a second ultra-sonic sensor including a second transmitter for transmitting ultra-sonic waves at substantially the same time as said first transmitter, and a receiver which is adapted to receive ultra-sonic waves reflected by the road surface and producing a receiver signal having a value depending upon the intensity of the received, reflected ultra-sonic waves; a first sensor circuit associated with said first ultra-sonic sensor and adapted to derive a first timing at which the receiver signal of said first receiver substantially reaches a peak; a second sensor circuit associated with said second ultra-sonic sensor and adapted to derive a second timing at which the receiver signal level of said second receiver substantially reaches a peak; and means for deriving a timing difference between said first and second timings and deriving vehicular body profile data based on said derived timing difference, and producing an output signal indicative of the vehicle body profile data. - View Dependent Claims (5, 6, 7, 8, 9, 10, 11)
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12. A method for monitoring vehicle body profile comprising the steps of:
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providing first and second ultra-sonic sensors at different positions on the vehicle body; actuating said first and second ultra-sonic sensors to transmit ultra-sonic waves toward a road surface; receiving ultra-sonic waves reflected by said road surface and producing receiver signals related to the intensity of the received ultra-sonic waves reflected by the road surface; detecting a first timing at which said receiver signal of said first ultra-sonic sensor substantially reaches a peak; detecting a second timing at which said receiver signal of said second ultra-sonic sensor substantially reaches a peak; and comparing said first and second timing and deriving a vehicle body profile signal based thereon. - View Dependent Claims (13)
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14. An ultra-sonic sensor system comprising:
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a transmitter transmitting ultra-sonic waves toward an object; a receiver receiving ultra-sonic waves reflected by the object and producing a receiver signal having a value depending upon the intensity of the received reflected ultra-sonic waves; means for detecting the timing at which said receiver signal reaches a specific relationship with a peak of said receiver signal, said timing detecting means comprising a delay circuit receiving said receiver signal and outputting the receiver signal after a predetermined delay and a comparator receiving said receiver signal directly from said receiver and from said delay circuit and producing a comparator signal which changes state approximately at the peak of the receiver signal and thereby specifying a reception timing of the reflected ultra-sonic waves; and means for deriving a distance value based on the elapsed time between transmission of the ultra-sonic waves toward said object and said reception timing.
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15. An ultra-sonic sensor system comprising;
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a transmitter transmitting ultra-sonic waves toward an object; a receiver receiving ultra-sonic waves reflected by said object and producing a receiver signal having a peak value; means for detecting a reception time of said receiver signal, said reception time being indicative of the detection of said peak value; means for deriving a distance value based on the elapsed time between transmission of said ultra-sonic waves toward said object and said reception time.
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Specification