A method for detecting a representative cardiac activity includes the arrangement of a plurality of electrodes, the measurement of the value of electrophysiological descriptors, and the calculation (CALC) of a score.

Methods and systems for determining a respiration rate (RR) of a subject are disclosed. In one embodiment, a method includes sampling a PPG signal at a first frequency, filtering the PPG signal with a first high-pass filter, receiving an output from the first high-pass filter and filtering the output at a second frequency in a second high-pass filter, counting positive- and negative-edge pulses of a portion of the PPG signal to determine breath-time intervals caused by an influence of the respiration rate on the PPG signal, and determining an average of the breath-time intervals for the positive-edge zero-crossings and the negative-edge zero-crossings to derive an estimate of the RR. In other embodiments, a central frequency of components of the PPG signal is determined based on bandpass filters and a feedback mechanism to estimate and select an appropriate adaptive filter to determine the RR. Other methods and systems are disclosed.

A non-invasive method and system is provided for determining an internal component of respiratory effort of a subject in a respiratory study. Both a thoracic signal (T) and an abdomen signal (A) are obtained, which are indicators of a thoracic component and an abdominal component of the respiratory effort, respectively. A first parameter of a respiratory model is determined from the obtained thoracic signal (T) and the abdomen signal (A). The first parameter is an estimated parameter of the respiratory model that is not directly measured during the study. The internal component of the respiratory effort is determined based at least on the determined first parameter of the respiratory model. The first model parameter is determined based on the thorax signal (T) and the obtained abdomen signal (A) without an invasive measurement.

An apparatus for monitoring a sleep parameter of a user includes an adhesive pad configured to conform to a surface of the user and a flexible element coupled to the adhesive pad. The flexible element includes a conductive fabric, and exhibits a modified electrical property in response to an applied force. The apparatus also includes a power source electrically coupled to the flexible element, and an electrical circuit electrically coupled to the power source and the flexible conductive element. The electrical circuit is configured to detect, during use, a change in an electrical property of the flexible element.

A method for selecting a subset of electrophysiological descriptors from a set of electrophysiological descriptors, includes procedures for estimating values of a set of electrophysiological descriptors and selecting a subset of descriptors as a function notably of quantifications of proximity factors.

Provided herein are systems and methods for computer monitoring of remote photoplethysmography (rPPG) from camera images based on chromaticity in a converted color space, which reduces motion-induced artifacts in camera images for improved rPPG computer monitoring of physiological parameters. In particular, a rPPG system for monitoring at least one physiological parameter from image data is disclosed herein. A processor subsystem electronically receives a first image data set representative of a series of consecutive images of at least a portion of a living body. The processor subsystem converts the first image data set from a first color space to a second color space to generate a second image data set including first channel data comprising a luminance component and second channel data comprising a chromatic component. The processor subsystem processes the second channel data to monitor the at least one physiological parameter of the living body.

A method and apparatus for determining a respiration state on the basis of a plurality of biological indicators calculated using bio-signals. The method for determining a respiration state on the basis of a plurality of biological indicators calculated using bio-signals includes collecting a photoplethysmography (PPG) signal measured by a PPG sensor and a cutaneous electric signal measured by an electrodermal activity (EDA) sensor; analyzing the collected PPG signal and cutaneous electric signal and calculating a plurality of biological indicators including a respiration rate; and comprehensively evaluating the plurality of biological indicators to determine a user's respiration state.

An electrode belt connector is provided for electrically connecting a conductor of an electrode belt to a first snap portion of a snap connector electrode configured to be connected to a biometric device. The electrode belt connector includes a frame and an electrically conductive portion. The frame defines a corresponding second snap portion configured to mate with the first snap portion of the snap connector electrode. The electrode belt connector further includes a connecting portion configured to electrically connect the conductor of the electrode belt to the first snap portion of the snap connector electrode.

The present invention relates to a device, system and method for automatic and unobtrusive caloric intake detection. The device comprises a respiration input for obtaining a respiration signal indicating the subject's respiration, and an analysis unit for analyzing the obtained respiration signal in the frequency domain by determining one or more respiration signal features from the obtained respiration signal in the frequency domain related to changes in oxidation and by detecting changes of the one or more determined respiration signal features to detect periods of caloric intake by the subject.

The present disclosure relates to the field of medical monitoring, and, in particular, to non-contact detecting and monitoring of patient breathing. Systems, methods, and computer readable media are described for calculating a change in depth of regions in one or more regions of interest (ROI's) on a patient and assigning one or more visual indicators to the regions based on the calculated changes in depth of the regions over time. In some embodiments, one or more breathing parameter signals corresponding to the regions can be generated and/or analyzed. In these and other embodiments, the one or more visual indicators can be displayed overlaid onto the regions in real-time. In these and still other embodiments, the systems, methods, and/or computer readable media (i) can display one or more generated breathing parameter signals in real-time and/or (ii) can trigger an alert and/or an alarm when a breathing abnormality is detected.