Device and method for monitoring body hydration
First Claim
1. A device, comprising:
- a controller;
a memory coupled to the controller;
a light-emitting diode (LED) module coupled to the controller and including a first LED and a second LED;
a light sensor coupled to the controller; and
the first LED configured to receive a first input signal from the controller and to emit a first wavelength of light having a first incident intensity into tissue,the second LED configured to receive a second input signal from the controller and to emit a second wavelength of light having a second incident intensity into the tissue,the first wavelength of light being different than the second wavelength of light,the light sensor being configured to generate a first output signal indicative of a first transmitted light intensity in the tissue associated with the first incident intensity, and a second output signal indicative of a second transmitted light intensity in the tissue associated with the second incident intensity,the controller being configured to;
receive the first output signal and the second output signal,access the memory to retrieve data representing a first water absorption coefficient associated with the first wavelength and data representing a second water absorption coefficient associated with the second wavelength, andcalculate, based on the first transmitted light intensity versus the first water absorption coefficient and the second transmitted light intensity versus the second water absorption coefficient, data representing water content in the tissue.
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Accused Products
Abstract
A device configured to furnish hydration monitoring employs a method using multiple different wavelengths of light transmitted into a human body part, each wavelength being input at a given respective input intensity. Respective output intensities of respective ones of the multiple wavelengths can be measured, upon transmission thereof through the human body part. The corresponding input intensity and the corresponding output intensity for the respective ones of the transmitted wavelengths can be used along with a form of an equation for the Beer-Lambert law to calculate a concentration-related slope, the concentration-related slope being proportional to the relative concentration of water in the human body part at a given time. A hydration-level output indicative of a level of hydration can then be generated based on the concentration-related slope.
27 Citations
20 Claims
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1. A device, comprising:
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a controller; a memory coupled to the controller; a light-emitting diode (LED) module coupled to the controller and including a first LED and a second LED; a light sensor coupled to the controller; and the first LED configured to receive a first input signal from the controller and to emit a first wavelength of light having a first incident intensity into tissue, the second LED configured to receive a second input signal from the controller and to emit a second wavelength of light having a second incident intensity into the tissue, the first wavelength of light being different than the second wavelength of light, the light sensor being configured to generate a first output signal indicative of a first transmitted light intensity in the tissue associated with the first incident intensity, and a second output signal indicative of a second transmitted light intensity in the tissue associated with the second incident intensity, the controller being configured to; receive the first output signal and the second output signal, access the memory to retrieve data representing a first water absorption coefficient associated with the first wavelength and data representing a second water absorption coefficient associated with the second wavelength, and calculate, based on the first transmitted light intensity versus the first water absorption coefficient and the second transmitted light intensity versus the second water absorption coefficient, data representing water content in the tissue. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A device, comprising:
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a controller; a memory coupled to the controller; a light module coupled to the controller and including a first light source and a second light source; a light sensor coupled to the controller; and the first light source configured to receive a first input signal from the controller and to emit a first wavelength of light having a first incident intensity into tissue, the second light source configured to receive a second input signal from the controller and to emit a second wavelength of light having a second incident intensity into the tissue, the first wavelength of light being different than the second wavelength of light, the light sensor being configured to generate a first output signal indicative of a first transmitted light intensity in the tissue associated with the first incident intensity, and a second output signal indicative of a second transmitted light intensity in the tissue associated with the second incident intensity, the controller being configured to; receive the first output signal and the second output signal, access the memory to retrieve data representing a first water absorption coefficient associated with the first wavelength and data representing a second water absorption coefficient associated with the second wavelength, and calculate a linear regression of the first transmitted light intensity versus the first water absorption coefficient and the second transmitted light intensity versus the second water absorption coefficient to generate data representing a slope indicative of water content in the tissue. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
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Specification