Application No.:
`Filing Date:
`
`16/835772
`March 31, 2020
`
`AMENDMENTS TO THE CLAIMS
`
`A complete listing of all claims is presented below with insertions underlined (e.g.,
`
`insertion), and deletions struck through or in double brackets (e.g., deletion or [[deletion]]).
`
`1.
`2.
`3.
`
`(Cancelled)
`(Cancelled)
`(New) A physiological monitoring device comprising:
`
`a plurality of light-emitting diodes configured to emit light in a first shape;
`
`a material configured to be positioned between the plurality of light-emitting
`
`diodes and tissue on a wrist of a user when the physiological monitoring device is in use,
`
`the material configured to change the first shape into a second shape by which the light
`
`emitted from one or moreofthe plurality of light-emitting diodes is projected towards the
`
`tissue;
`
`a plurality of photodiodes configured to detect at least a portion of the light after
`
`the at least the portion of the light passes through thetissue, the plurality of photodiodes
`
`further configured to output at least one signal responsiveto the detected light;
`
`a surface comprising a dark-colored coating,
`
`the surface configured to be
`
`positioned between the plurality of photodiodes and the tissue when the physiological
`
`monitoring device is in use, wherein an opening defined in the dark-colored coating is
`
`configured to allow at least a portion of light reflected from the tissue to pass through the
`
`surface;
`
`a light block configured to prevent at least a portion of the light emitted from the
`
`plurality of light-emitting diodes from reaching the plurality of photodiodes without first
`
`reaching the tissue; and
`
`a processor configured to receive and process the at least one outputted signal and
`
`determine a physiological parameter of the user responsive to the at least one signal.
`
`4.
`
`(New) The physiological monitoring device of Claim 3, wherein at least one of the
`
`plurality of light-emitting diodes is configured to emit light of a first wavelength and at least one
`
`of the plurality of light-emitting diodes is configured to emit light of a second wavelength, the
`
`second wavelength being different than the first wavelength.
`
`5.
`
`(New) The physiological monitoring device of Claim 3, further comprising a display
`
`configured to present visual feedback responsive to the determined physiological parameter.
`
`5-
`
`
`Filing Date:
`
`16/835772
`March 31, 2020
`
`AMENDMENTS TO THE CLAIMS
`
`A complete listing of all claims is presented below with insertions underlined (e.g.,
`
`insertion), and deletions struck through or in double brackets (e.g., deletion or [[deletion]]).
`
`1.
`2.
`3.
`
`(Cancelled)
`(Cancelled)
`(New) A physiological monitoring device comprising:
`
`a plurality of light-emitting diodes configured to emit light in a first shape;
`
`a material configured to be positioned between the plurality of light-emitting
`
`diodes and tissue on a wrist of a user when the physiological monitoring device is in use,
`
`the material configured to change the first shape into a second shape by which the light
`
`emitted from one or moreofthe plurality of light-emitting diodes is projected towards the
`
`tissue;
`
`a plurality of photodiodes configured to detect at least a portion of the light after
`
`the at least the portion of the light passes through thetissue, the plurality of photodiodes
`
`further configured to output at least one signal responsiveto the detected light;
`
`a surface comprising a dark-colored coating,
`
`the surface configured to be
`
`positioned between the plurality of photodiodes and the tissue when the physiological
`
`monitoring device is in use, wherein an opening defined in the dark-colored coating is
`
`configured to allow at least a portion of light reflected from the tissue to pass through the
`
`surface;
`
`a light block configured to prevent at least a portion of the light emitted from the
`
`plurality of light-emitting diodes from reaching the plurality of photodiodes without first
`
`reaching the tissue; and
`
`a processor configured to receive and process the at least one outputted signal and
`
`determine a physiological parameter of the user responsive to the at least one signal.
`
`4.
`
`(New) The physiological monitoring device of Claim 3, wherein at least one of the
`
`plurality of light-emitting diodes is configured to emit light of a first wavelength and at least one
`
`of the plurality of light-emitting diodes is configured to emit light of a second wavelength, the
`
`second wavelength being different than the first wavelength.
`
`5.
`
`(New) The physiological monitoring device of Claim 3, further comprising a display
`
`configured to present visual feedback responsive to the determined physiological parameter.
`
`5-
`
`
`
`Application No.:
`Filing Date:
`
`16/835772
`March 31, 2020
`
`6.
`
`(New) The physiological monitoring device of Claim 5, wherein the display is a
`
`touch-screen display.
`
`7.
`
`(New) The physiological monitoring device of Claim 3, wherein the plurality of light-
`
`emitting diodes and the plurality of photodiodes are arranged in a reflectance measurement
`
`configuration.
`
`8.
`
`(New) The physiological monitoring device of Claim 3, wherein the plurality of
`
`photodiodes are arranged in an array having a spatial configuration corresponding to a shape of a
`
`portion of the tissue boundedbythe light block.
`
`9.
`
`(New) The physiological monitoring device of Claim 3, wherein the light block
`
`comprises an at least partially circular shape, and wherein the plurality of light-emitting diodes
`
`are positioned outside the light block and the plurality of photodiodes are positioned inside the
`
`light block.
`
`10. (New) The physiological monitoring device of Claim 3, wherein the physiological
`
`parameter comprisespulserate.
`
`11. (New) The physiological monitoring device of Claim 3, wherein the physiological
`
`parameter comprises oxygen saturation.
`
`12. (New) The physiological monitoring device of Claim 3, wherein the material
`
`comprisesglass.
`
`13.(New) The physiological monitoring device of Claim 3, wherein the material
`
`comprisesplastic.
`
`14. (New) The physiological monitoring device of Claim 3, wherein the second shape
`
`comprises a circular geometry.
`
`15. (New) The physiological monitoring device of Claim 3, wherein the opening defined
`
`in the dark-colored coating comprises a width and a length, and wherein the width is larger than
`
`the length.
`
`16. (New) The physiological monitoring device of Claim 3, wherein the dark-colored
`
`coating comprisesblack.
`
`17. (New) A physiological monitoring device comprising:
`
`a plurality of light-emitting diodes configured to emit light proximate a wrist of a
`
`user;
`
`
`
`Application No.:
`Filing Date:
`
`16/835772
`March 31, 2020
`
`a light diffusing material configured to be positioned between the plurality of
`
`light-emitting diodes and a tissue measurement site on the wrist of the user when the
`
`physiological monitoring deviceis in use;
`
`a light block having a circular shape;
`
`a plurality of photodiodes configured to detect at least a portion of the light
`
`emitted from the plurality of light-emitting diodes after the light passes through the light
`
`diffusing material and a portion of the tissue measurement site encircled by the light
`
`block, wherein the plurality of photodiodes are arranged in an array having a spatial
`
`configuration corresponding to a shape of the portion of the tissue measurement site
`
`encircled by the light block, wherein the plurality of photodiodes are further configured to
`
`output at least one signal responsive to the detected light, and wherein the plurality of
`
`light-emitting diodes and the plurality of photodiodes are arranged in a reflectance
`
`measurementconfiguration;
`
`wherein the light block is configured to optically isolate the plurality of light-
`
`emitting diodes from the plurality of photodiodes by preventing at least a portion of light
`
`emitted from the plurality of light-emitting diodes from reaching the plurality of
`
`photodiodes withoutfirst reaching the portion of the tissue measurementsite;
`
`a processor configured to receive and process the at least one outputted signal and
`
`determine a physiological parameter of the user responsive to the at least one outputted
`
`signal; and
`
`wherein the physiological monitoring device
`
`is
`
`configured to
`
`transmit
`
`physiological parameter data to a separate processor.
`
`18. (New) The physiological monitoring device of Claim 17, wherein the plurality of
`
`light-emitting diodes are positioned outside the light block and the plurality of photodiodes are
`
`positioned insidethe light block.
`
`19. (New) The physiological monitoring device of Claim 17, wherein the physiological
`
`parameter comprisespulserate.
`
`20. (New) The physiological monitoring device of Claim 17, wherein the physiological
`
`parameter comprises oxygen saturation.
`
`-7-
`
`
`
`Application No.:
`Filing Date:
`
`16/835772
`March 31, 2020
`
`21.(New) The physiological monitoring device of Claim 17, wherein the plurality of
`
`light-emitting diodes are configured to emit light in a first shape, and wherein the light diffusing
`
`material is configured to change the first shape into a second shape by which the light emitted
`
`from one or more of the plurality of light-emitting diodes is projected towards the tissue
`
`measurementsite.
`
`22. (New) A system configured to measure one or more physiological parameters of a
`
`user, the system comprising:
`
`a physiological monitoring device comprising:
`
`a plurality of light-emitting diodes configured to emit light in a first shape;
`
`a material configured to be positioned between the plurality of light-emitting
`
`diodes and tissue of the user when the physiological monitoring device is in use, the
`
`material configured to change the first shape into a second shape by which the light
`
`emitted from one or moreofthe plurality of light-emitting diodes is projected towards the
`
`tissue;
`
`a plurality of photodiodes configured to detect at least a portion of the light after
`
`the at least the portion of the light passes through thetissue, the plurality of photodiodes
`
`further configured to output at least one signal responsiveto the detected light;
`
`a surface comprising a dark-colored coating,
`
`the surface configured to be
`
`positioned between the plurality of photodiodes and the tissue when the physiological
`
`monitoring device is in use, wherein an opening defined in the dark-colored coating is
`
`configured to allow at least a portion of light reflected from the tissue to pass through the
`
`surface;
`
`a light block configured to prevent at least a portion of light from the plurality of
`
`light-emitting diodes from reaching the plurality of photodiodes withoutfirst reaching the
`
`tissue; and
`
`a processor configured to receive and process the outputted at least one signal and
`
`determine a physiological parameter of the user responsive to the outputted at least one
`
`signal; and
`
`a processing device configured to wirelessly receive physiological parameter data from
`
`the physiological monitoring device, wherein the processing device comprises a user interface, a
`
`-8-
`
`
`
`Application No.:
`Filing Date:
`
`16/835772
`March 31, 2020
`
`storage device, and a network interface configured to wirelessly communicate with the
`
`physiological monitoring device, and wherein the user interface includes a touch-screen display
`
`configured to present visual feedback responsive to the physiological parameter data.
`
`23. (New) The system of Claim 22, wherein the system is configured to determinea state
`
`of wellness of the user based on the determined physiological parameter.
`
`24. (New) The system of Claim 22, wherein the system is configured to determine a trend
`
`of wellness of the user based on the determined physiological parameter.
`
`25. (New) The system of Claim 22, wherein the visual feedback presented by the touch-
`
`screen display is responsiveto at least one of a pulse rate and an oxygen saturation of the user.
`
`26. (New) The system of Claim 22, wherein the material comprises at least one of glass
`
`andplastic.
`
`27. (New) The system of Claim 22, wherein the second shape comprises a width and a
`
`length, and wherein the width is different from the length.
`
`28. (New) The system of Claim 22, wherein the plurality of photodiodes are arranged in
`
`an array having a spatial configuration corresponding to a shape of a portion of the tissue
`
`encircled by the light block.
`
`29. (New) The system of Claim 22, wherein at least one of the plurality of light-emitting
`
`diodes is configured to emit light of a first wavelength and at least one of the plurality of light-
`
`emitting diodes is configured to emit light of a second wavelength, the second wavelength being
`
`different than the first wavelength.
`
`
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