Methods and apparatus for a remote, noninvasive technique to detect core body temperature in a subject via thermal imaging
First Claim
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1. A method of remotely and noninvasively determining a derived surface temperature of a distant subject, comprising the steps of:
- remotely and noninvasively acquiring thermal image data for a field of view that comprises at least a portion of a surface of the subject;
obtaining information from at least a first temperature reference surface having a first known temperature and a second temperature reference surface having a second known temperature, wherein the first and second known temperatures are different; and
deriving a calibrated surface temperature of the subject using the thermal image data corresponding to the surface and the first and second known reference temperatures, said calibrated surface temperature having an improved accuracy relative to the temperature indicated by the thermal image data corresponding to the surface.
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Abstract
An approach to noninvasively, remotely and accurately detect core body temperature in a warm-blooded subject, human or animal, via thermal imaging. Preferred features such as the use of in-frame temperature references, specific anatomical target regions and a physiological heat transfer model help the present invention to overcome pitfalls inherent with existing thermal imaging techniques applied to physiological screening applications. This invention provides the ability to noninvasively, remotely and rapidly screen for diseases or conditions that are characterized by changes in core body temperature. One human application of this invention is the remote screening for severe acute respiratory syndrome (SARS), since fever is a common, early symptom. Other diseases and conditions that affect the core body temperature of humans or animals may also be noninvasively and remotely detected with this invention.
53 Citations
19 Claims
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1. A method of remotely and noninvasively determining a derived surface temperature of a distant subject, comprising the steps of:
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remotely and noninvasively acquiring thermal image data for a field of view that comprises at least a portion of a surface of the subject; obtaining information from at least a first temperature reference surface having a first known temperature and a second temperature reference surface having a second known temperature, wherein the first and second known temperatures are different; and deriving a calibrated surface temperature of the subject using the thermal image data corresponding to the surface and the first and second known reference temperatures, said calibrated surface temperature having an improved accuracy relative to the temperature indicated by the thermal image data corresponding to the surface. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method of remotely and noninvasively determining a core body temperature of a distant subject, comprising:
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remotely and noninvasively acquiring thermal image data for a field of view that comprises at least a portion of a surface of the subject; acquiring an ambient temperature near said surface; deriving the core body temperature of the subject using information comprising the ambient temperature and the thermal image data corresponding to the surface portion in a manner that accounts for a heat transfer impact of ambient temperature upon the surface temperature. - View Dependent Claims (13, 14, 15, 16)
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17. A method of remotely and noninvasively determining a surface temperature of a distant subject, comprising the steps of:
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remotely and noninvasively acquiring thermal image data for a field of view that comprises at least a portion of a surface of the subject and at least two regions of differing emissivity; deriving a calibrated surface temperature of the subject using information comprising the thermal image data of the subject surface portion and said two regions having differing emissivity, said calibrated surface temperature having an improved accuracy relative to the temperature indicated by the thermal image data corresponding to the surface.
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18. A method of remotely and noninvasively determining a core body temperature of a distant subject, comprising the steps of:
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remotely and noninvasively acquiring thermal image data for a field of view that comprises at least a portion of a surface of the subject; deriving the core body temperature of the subject using information comprising an ambient temperature near said surface, humidity near said surface, and the thermal image data, said deriving occurring in a manner that accounts for a heat transfer impact of ambient temperature and humidity upon the surface portion of the subject.
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19. A thermal imaging system that derives a surface temperature of a distant subject from thermal image data, comprising
a thermal imaging device that acquires thermal image data of at least a portion of a surface of the subject when the subject is within a field of view of the device; -
first and second temperature references; and program instructions that derive a calibrated surface temperature of the subject using information comprising the thermal image data corresponding to the surface and temperature information obtained from the first and second temperature references, said calibrated surface temperature having an improved accuracy relative to the temperature indicated by the thermal image data corresponding to the surface.
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Specification
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Current AssigneeGary L. Mcquilkin
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Original AssigneeGary L. Mcquilkin
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InventorsMcQuilkin, Gary L.
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Application NumberUS12/072,938Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current600/473CPC Class CodesA61B 5/015 By temperature mapping of b...G01J 2005/0077 ImagingG01J 5/0025 Living bodies ear thermomet...G01J 5/53 Reference sources, e.g. sta...
