Electrocardiography monitoring system and method
First Claim
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1. A system for electrocardiography (ECG) monitoring of a subject, the system comprising:
- multiple non-invasive capacitive sensors configured to generate output signals conveying electrophysiological information of the subject, wherein the multiple capacitive sensors include at least three non-invasive capacitive sensors that are free from attachment to the subject, wherein the non-invasive capacitive sensors are further configured to emit carrier signals, and wherein the generated output signals of an individual one of the non-invasive capacitive sensors are electrophysiological signals of the subject, the physiological signals including a representation of the carrier signals;
computer program modules; and
one or more processors configured to execute the computer program modules, the computer program modules comprising;
a coupling module configured to determine coupling levels for individual ones of the non-invasive capacitive sensors based on the generated output signalsa selection module configured to select one or more capacitive sensors based on the determined coupling levels; and
a reconstruction module configured to determine an electrocardiogram (ECG) signal based on the generated output signals from the selected one or more capacitive sensors;
wherein the coupling module is further configured to determine which capacitive sensor has the highest coupling level, and wherein selection of the one or more capacitive sensors is based on one or more correlation coefficients between the output signals generated by the capacitive sensor having the highest coupling level and the output signals generated by one or more other capacitive sensors, the correlation coefficient including at least one of a Pearson'"'"'s correlation coefficient and a rank correlation coefficient.
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Abstract
Systems and methods for electrocardiography monitoring use multiple capacitive sensors in order to determine reliable measurements of electrophysiological information of a patient. Relative coupling strength and/or reliability is used to select dynamically which sensors to use in order to determine, in particular, an electrocardiogram of the patient.
15 Citations
17 Claims
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1. A system for electrocardiography (ECG) monitoring of a subject, the system comprising:
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multiple non-invasive capacitive sensors configured to generate output signals conveying electrophysiological information of the subject, wherein the multiple capacitive sensors include at least three non-invasive capacitive sensors that are free from attachment to the subject, wherein the non-invasive capacitive sensors are further configured to emit carrier signals, and wherein the generated output signals of an individual one of the non-invasive capacitive sensors are electrophysiological signals of the subject, the physiological signals including a representation of the carrier signals; computer program modules; and one or more processors configured to execute the computer program modules, the computer program modules comprising; a coupling module configured to determine coupling levels for individual ones of the non-invasive capacitive sensors based on the generated output signals a selection module configured to select one or more capacitive sensors based on the determined coupling levels; and a reconstruction module configured to determine an electrocardiogram (ECG) signal based on the generated output signals from the selected one or more capacitive sensors; wherein the coupling module is further configured to determine which capacitive sensor has the highest coupling level, and wherein selection of the one or more capacitive sensors is based on one or more correlation coefficients between the output signals generated by the capacitive sensor having the highest coupling level and the output signals generated by one or more other capacitive sensors, the correlation coefficient including at least one of a Pearson'"'"'s correlation coefficient and a rank correlation coefficient. - View Dependent Claims (2, 3, 4, 5)
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6. A method of providing electrocardiography (ECG) monitoring of a subject, the method comprising:
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emitting, by multiple non-invasive capacitive sensors that are not in physical contact with the patient, carrier signals, wherein the multiple capacitive sensors include at least three non-invasive capacitive sensors; generating, by the multiple capacitive sensors, output signals conveying electrophysiological information of the subject, wherein the output signals of an individual one of the non-invasive capacitive sensors are electrophysiological signals of the subject, the physiological signals including a representation of the carrier signals; determining coupling levels for individual ones of the capacitive sensors based on the generated output signals including determining which capacitive sensor has the highest coupling level; selecting one or more capacitive sensors based on the determined coupling levels based on one or more correlation coefficients between the output signals generated by the capacitive sensor having the highest coupling level and the output signals generated by one or more other capacitive sensors; and determining an electrocardiogram (ECG) signal based on the generated output signals from the selected one or more capacitive sensors; wherein the step of selecting one or more capacitive sensors is based on one or more correlation coefficients between the output signals generated by the capacitive sensor having the highest coupling level and the output signals generated by one or more other capacitive sensors, the correlation coefficient including at least one of a Pearson'"'"'s correlation coefficient and a rank correlation coefficient. - View Dependent Claims (7, 8, 9, 10)
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11. A system configured to provide electrocardiography (ECG) monitoring of a subject, the system comprising:
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means for emitting carrier signals including multiple elements configured to emit carrier signals, wherein the multiple elements include at least three non-invasive elements; means for generating output signals conveying electrophysiological information of the subject, wherein the output signals of an individual element include a representation of the carrier signals emitted by the individual element, wherein the means for generating output signals is non-invasive to the subject; means for determining coupling levels for the means for emitting carrier signals based on the generated output signals; means for selecting one or more elements of the means for emitting carrier signals based on the determined coupling levels; and means for determining an electrocardiogram (ECG) signal based on the generated output signals from the selected elements selected by the means for selecting; wherein the means for determining coupling levels is configured to determine which non-invasive element has the highest coupling level, and wherein the selection means for selecting is based on one or more correlation coefficients between the output signals generated by the non-invasive element having the highest coupling level and the output signals generated by one or more other non-invasive element, the correlation coefficient including at least one of a Pearson'"'"'s correlation coefficient and a rank correlation coefficient. - View Dependent Claims (12, 13, 14, 15, 16, 17)
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Specification