SYSTEMS AND METHODS FOR NONINVASIVE BLOOD GLUCOSE AND OTHER ANALYTE DETECTION AND MEASUREMENT USING COLLISION COMPUTING
First Claim
1. A method for determining concentration of glucose in a tissue sample, the method comprising the steps of:
- (a) obtaining energy absorbed by glucose from energy directed to the tissue sample as a result of a collision between two co-dependent waveforms; and
(b) projecting the energy absorbed by glucose to a glucose concentration.
2 Assignments
0 Petitions
Accused Products
Abstract
In a noninvasive system for detection/measurement of glucose and other analytes in a medium such as tissue, spectra from the medium are deconstructed into features. Conditioned features, which contain frequency components specific to glucose or the other analytes, are derived from one or more features by modulating a carrier kernel with the feature. The conditioned features are computationally collided with one or more Zyotons that are co-dependent with the conditioned features. One or more collisions amplify a property of the analyte e.g., energy absorbed by glucose in tissue from radiation directed to the skin. A gradient of several values of the amplified property, each value corresponding to a particular radiation pattern according to a spectroscopic tomographic sequence, is used to select a suitable projector curve, with which a representative amplified value is projected to an accurate estimate of the concentration of glucose or the other analytes, without needing personalized calibration.
12 Citations
260 Claims
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1. A method for determining concentration of glucose in a tissue sample, the method comprising the steps of:
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(a) obtaining energy absorbed by glucose from energy directed to the tissue sample as a result of a collision between two co-dependent waveforms; and (b) projecting the energy absorbed by glucose to a glucose concentration. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24)
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25. A system for determining concentration of glucose in a tissue sample, the system comprising:
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a first processor; and a first memory in electrical communication with the first processor, the first memory comprising instructions which, when executed by a processing unit comprising at least one of the first processor and a second processor, and in electronic communication with a memory module comprising at least one of the first memory and a second memory, program the processing unit to; (a) obtain energy absorbed by glucose from energy directed to the tissue sample as a result of a collision between two co-dependent waveforms; and (b) project the energy absorbed by glucose to a glucose concentration. - View Dependent Claims (26, 27, 28)
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29-254. -254. (canceled)
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255. A method for generating features for measurement of heart beats, the method comprising:
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receiving a signal based on one of reflected and transmitted radiation from a tissue during a global time interval starting at a global start time and ending at a global end time; designating a first portion of the signal starting at the global start time and ending at a first end time less than the global end time as a first feature; designating a second portion of the signal starting at the global start time and ending at a second end time greater than the first end time as a second feature; and identifying a start of a heart-beat cycle within the first feature.
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256-258. -258. (canceled)
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259. A system for generating features for measurement of heart beats, the system comprising:
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a first processor; and a first memory in electrical communication with the first processor, the first memory comprising instructions which, when executed by a processing unit comprising at least one of the first processor and a second processor, and in electronic communication with a memory module comprising at least one of the first memory and a second memory, program the processing unit to; receive a signal based on one of reflected and transmitted radiation from a tissue during a global time interval starting at a global start time and ending at a global end time; designate a first portion of the signal starting at the global start time and ending at a first end time less than the global end time as a first feature; designate a second portion of the signal starting at the global start time and ending at a second end time greater than the first end time as a second feature; and identify a start of a heart-beat cycle within the first feature.
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260-262. -262. (canceled)
Specification