Method and apparatus for optical level sensing of agitated fluid surfaces
First Claim
1. A method for optically measuring a level of the top surface of a fluid contained in a storage means, comprising the steps of:
- (a) providing a lidar apparatus and adjusting a line of sight of said lidar apparatus substantially perpendicular to said top surface, said lidar apparatus including means for;
(a1) sending a plurality of optical pulses towards said top surface,(a2) receiving a plurality of optical signals reflected by said top surface,(a3) converting said optical signals into digital waveforms,(b) computing a computed waveform from the plurality of said digital waveforms, each element of said computed waveform being given by the value of a statistical estimator of the variability of the measured signal amplitudes stored in the corresponding elements of the said digital waveforms,(c) locating in said computed waveform the signal echo returned from said top surface of a fluid, and(d) determining the vertical distance that separates said top surface of a fluid from said lidar apparatus from the position of said signal echo returned from said top surface.
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Abstract
A method and apparatus provide for non-contact optical measurement of the level of a fluid stored in a tank or container, the surface of the fluid being possibly agitated. The method processes numerically the digitized signal waveforms generated by a lidar apparatus based on a pulsed time-of-flight modulation scheme. A key step of the numerical processing is the computation of a waveform in which each data point is obtained from a statistical estimator of the variability of the amplitude signal echo measured at the distance from the lidar apparatus that corresponds to the rank of the data point in the waveform. The statistical estimator is preferably the standard deviation. By using a statistical estimator of the variability of the captured signal amplitude, the specific signal echo returned from an agitated fluid surface can be greatly amplified as compared to the signal echoes returned from any obstacle or medium that could be present along the path of the optical beam radiated by the lidar apparatus. The method then allows for an efficient retrieval of the useful signal echo from which the level of the fluid surface can be reliably measured with greater accuracy, particularly in situations where the useful signal echo would be buried in a strong signal echo returned from any optically scattering or absorbing medium that would fill in the volume of the tank above the fluid surface.
49 Citations
9 Claims
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1. A method for optically measuring a level of the top surface of a fluid contained in a storage means, comprising the steps of:
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(a) providing a lidar apparatus and adjusting a line of sight of said lidar apparatus substantially perpendicular to said top surface, said lidar apparatus including means for; (a1) sending a plurality of optical pulses towards said top surface, (a2) receiving a plurality of optical signals reflected by said top surface, (a3) converting said optical signals into digital waveforms, (b) computing a computed waveform from the plurality of said digital waveforms, each element of said computed waveform being given by the value of a statistical estimator of the variability of the measured signal amplitudes stored in the corresponding elements of the said digital waveforms, (c) locating in said computed waveform the signal echo returned from said top surface of a fluid, and (d) determining the vertical distance that separates said top surface of a fluid from said lidar apparatus from the position of said signal echo returned from said top surface. - View Dependent Claims (2, 3, 4)
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5. A method for optically measuring a level of the top surface of a fluid contained in a storage means, comprising the steps of:
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(a) providing a lidar apparatus and adjusting a line of sight of said lidar apparatus substantially perpendicular to said top surface, said lidar apparatus including means for; (a1) sending a plurality of optical pulses towards said top surface, (a2) receiving a plurality of optical signals reflected by said top surface, (a3) converting said optical signals into digital waveforms, (b) computing a first computed waveform from the plurality of said digital waveforms, each element of said first computed waveform being given by the mean value of the measured signal amplitudes stored in the corresponding elements of the said digital waveforms, (c) computing a second computed waveform from the plurality of said digital waveforms, each element of said second computed waveform being given by the value of a statistical estimator of the variability of the measured signal amplitudes stored in the corresponding elements of the said digital waveforms, (d) comparing said first and second computed waveforms and locating in said first or second computed waveform the signal echo returned from said top surface of a fluid, (e) determining the vertical distance that separates said top surface of a fluid from said lidar apparatus from the position of said signal echo returned from said top surface.
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6. An apparatus for optically measuring a level of a top surface of a fluid contained in a storage means, said lidar apparatus comprising:
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(a) an optical emitter module for sending a plurality of optical pulses towards said top surface, (b) an optical receiver module for receiving a plurality of optical signals reflected by said top surface, (c) means for sampling analog signal waveforms at the output of the optical receiver module and for converting said analog signal waveforms into digital signal waveforms, (d) a control and processing module for numerically processing said digital signal waveforms, wherein said numerical processing includes the computation of a waveform formed of a statistical estimator of the variability of the signal amplitude data sampled for each distance value, from which the signal echo returned from said top surface of a fluid can be retrieved for determining the vertical distance that separates said top surface from the apparatus. - View Dependent Claims (7, 8, 9)
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Specification
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Current AssigneeLeddarTech, Inc.
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Original AssigneeInstitut national d'optique
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InventorsBabin, Francois
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Primary Examiner(s)PYO, KEVIN K
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Application NumberUS12/169,872Publication NumberTime in Patent Office531 DaysField of Search250/573, 250/576, 250/577, 732/90.R, 732/93, 356/4.01, 356/5.01, 356/436, 356/440US Class Current250/573CPC Class CodesG01F 23/292 Light , e.g. infrared or ul...G01F 23/2928 using light reflected on th...
