Bioaerosol Detector Having Safeguards
First Claim
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1. A bioaerosol detector, comprising:
- a. a housing defining a chamber;
b. an air stream injection assembly, producing an airstream with entrained particles having an average velocity within a transverse extent, in said chamber;
c. a light source, producing a light beam that intersects and crosses said air stream;
d. a light detection assembly, configured and positioned to detect light generated by scattering of light from said light beam, by particles in said air stream;
e. a digitizer, which produces a sequence of first digital values, representative of light detection, responsive to said light detection assembly;
f. a data processor that repeatedly calculates a background noise level, responsive to said sequence of first digital values, and which is responsive to a high density of small particles condition wherein said noise level rises due to small particles in said air stream that are not detected and are sufficiently numerous to raise the noise level, thereby obscuring said particles from detection, by detecting a condition in which said noise level has risen above a threshold.
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Abstract
A method of detecting bioaerosols, including detecting particles and estimating a particle size for each detected particle and determining a fluorescence strength for each detected particle. Comparing particle size and fluorescence strength for each detected particle to arrive at a normalized fluorescence strength per particle and comparing normalized fluorescence strengths over a time period to a maximum threshold, to detect highly fluorescent manmade substances.
0 Citations
20 Claims
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1. A bioaerosol detector, comprising:
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a. a housing defining a chamber; b. an air stream injection assembly, producing an airstream with entrained particles having an average velocity within a transverse extent, in said chamber; c. a light source, producing a light beam that intersects and crosses said air stream; d. a light detection assembly, configured and positioned to detect light generated by scattering of light from said light beam, by particles in said air stream; e. a digitizer, which produces a sequence of first digital values, representative of light detection, responsive to said light detection assembly; f. a data processor that repeatedly calculates a background noise level, responsive to said sequence of first digital values, and which is responsive to a high density of small particles condition wherein said noise level rises due to small particles in said air stream that are not detected and are sufficiently numerous to raise the noise level, thereby obscuring said particles from detection, by detecting a condition in which said noise level has risen above a threshold. - View Dependent Claims (2, 3, 4, 5)
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6. A bioaerosol detector, comprising:
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a. a housing defining a chamber; b. an air stream injection assembly, producing an airstream with entrained particles having an average velocity within a transverse extent, in said chamber; c. a light source, producing a light beam that intersects with and crosses said air stream; d. a photon detection assembly, including an optical train and a photon detector, and being configured and positioned to generate an output pulse in response to a photon encounter, from light emitted from said light source and scattered by a particle in said air stream; e. a digitizer, responsive to said photon detector, to produce a sequence of first digital values, each first digital value representing detections of output pulses from said photon detection assembly, per a unit of time duration; f. a photon detector continuous high state sensor, also responsive to said photon detection assembly, and adapted to detect a continuous high output state, thereby indicating that a flood of photons is preventing said photon detector from transitioning into a low state between photon encounters. - View Dependent Claims (7, 8, 9)
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10. A particle detector, comprising:
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a. a housing defining a chamber; b. an air stream injection assembly, producing an airstream, having a transverse extent, in said chamber; c. a light source, producing a light beam that intersects with and crosses said air stream; d. a light detection assembly, configured and positioned to detect scattering of light from said light beam, by particles in said air stream; e. a digitizer, responsive to said light detection assembly, to produce a sequence of first digital values, each first digital value representing light detected per a unit of time duration; f. a data processing assembly, computing a background noise estimation, responsive to said sequence of digital values, and repeatedly determining if interior surfaces of said light detection assembly have become degraded by adherent particles by analyzing changes to said background noise estimation over time to determine if an increase in background noise above a background noise increase threshold has taken place over a time period longer than a time period threshold. - View Dependent Claims (11, 12, 13)
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14. A method of detecting bioaerosols, comprising:
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a. detecting particles and estimating a particle size for each detected particle; b. determining a fluorescence strength for each detected particle; c. comparing particle size and fluorescence strength for each detected particle to arrive at a normalized fluorescence strength per particle; d. comparing normalized fluorescence strengths over a time period to a maximum threshold, to detect highly fluorescent manmade substances. - View Dependent Claims (15, 16, 17)
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18. A bioaerosol detector, comprising:
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a. a housing defining a chamber; b. an air stream injection assembly, producing an airstream with entrained particles having an average velocity within a transverse extent, in said chamber; c. an ultraviolet light source, producing a light beam that intersects said air stream; d. a scattering light detection assembly, configured and positioned to detect light generated by scattering of light from said light beam, by particles in said air stream, and including a first lens that has a surface facing said chamber; e. a fluorescence light detection assembly, including a long wavelength filter, and which detects longer wavelength light indicative of light that has been created by biofluorescence, from said particles in said air stream, and including a second lens that has a surface facing said chamber; and f. wherein said scattering light detection assembly can be removed as a single unit, thereby permitting easy access to said first lens, to permit cleaning of said lens. - View Dependent Claims (19, 20)
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Specification
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Current AssigneeElric Saaski
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Original AssigneeCBRN International, Ltd.
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InventorsSAASKI, ELRIC, YACOBI, DOR
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current
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CPC Class CodesG01N 15/01 specially adapted for biolo...G01N 15/0205 by optical meansG01N 15/0211 Investigating a scatter or ...G01N 15/06 Investigating concentration...G01N 15/075 by optical meansG01N 15/1404 Handling flow, e.g. hydrody...G01N 15/1409 Handling samples, e.g. inje...G01N 15/1434 Optical arrangementsG01N 15/1459 the analysis being performe...G01N 2015/0046 in gas, e.g. smokeG01N 2015/019 Biological contaminants; Fo...G01N 21/6486 Measuring fluorescence of b...
