A fall detection system includes a wearing apparatus for wearing by a user and a processor connected to the wearing apparatus. The wearing apparatus is set with an inertial sensor for detecting user motion data. The processor is connected with the inertial sensor of the wearing apparatus. When the user's fall state is recognized, further obtaining the motion data of the user at the time of the stand by the inertial sensor and comparing the motion data according to a normal posture condition and/or an abnormal posture condition in a database to determine damage severity of the user.

Devices, systems, and methods are disclosed for improved laser speckle imaging of samples, such as vascularized tissue, for the determination of the rate of movement of light scattering particles within the sample. The system includes a structure adjoining a light source and a photo-sensitive detector. The structure can be positioned adjacent the sample (e.g., coupled to the sample) and configured to orient the light source and detector relative the sample such that surface reflections, including specular reflections and diffuse reflections, are discouraged from entering the detection field of the detector. The separation distance along the structure between the light source and the detector may further enable selective depth penetration into the sample and biased sampling of multiply scattered photons. The system includes an operably coupled processor programmed to derive contrast metrics from the detector and to relate the contrast metrics to a rate of movement of the light scattering particles.

A directional force sensor and sensing system are described. The directional force sensor includes a leaf spring and one or more load sensors disposed about the leaf spring such that in response to a force applied to the leaf spring, the one or more load sensors provide a signal. A controller is coupled to receive signals from the one or more directional force sensors and determines characteristics of forces applied to the directional force sensors.

Provided is a biological electrode and a biological electrode-equipped wearing tool, in which a contact surface having a certain surface area is suitably brought into intimate contact with a living body, and a suitable electrical distribution is obtained. The biological electrode includes: a thin-plate-like or sheet-like wiring substrate having a lead wire portion to be connected with equipment; a plurality of electrode convex portions disposed on a surface of the wiring substrate in a state of being electrically connected with the lead wire portion; and a conductive cloth portion which is superimposed on the wiring substrate through the electrode convex portions. The conductive cloth portion is to be contacted with the surface of a living body, and electrically connected to the living body.

Disclosed is a method of operating a monitor device and an associated monitor device of an ostomy system including an ostomy appliance having an electrode assembly comprising a plurality of electrodes including a first electrode pair, the method comprising: obtaining one or more parameters including obtaining a first parameter of a first terminal pair connected to the first electrode pair of the electrode assembly; determining if one or more operability criteria are satisfied based on the one or more parameters including determining if the first parameter satisfies first operability criteria indicative of operability of the first electrode pair of the electrode assembly.

An apparatus comprises a processing device configured to receive physiological monitoring data from wearable devices, to generate telemedicine data based on telemedicine interactions between a given user and telemedical support staff of a telemedicine network, and to calculate, for the given user, a predicted outcome and associated user-specific risk of contracting and spreading a disease for two or more telemedical treatment scenarios based on the physiological monitoring data and the telemedicine data. The processing device is also configured to recommend a given telemedical treatment scenario for the given user based on the predicted outcomes and associated user-specific risks for the telemedical treatment scenarios, and to generate notifications for delivery to at least one of the given user and one or more other users based on the recommended telemedical treatment scenario, the notifications comprising information related to outbreak of and measures for treating and mitigating spread of the disease.

A method includes receiving multimodal data collected using at least one wearable device during an assessment window. The method also includes extracting biomarker features from the multimodal data, based on changes in the extracted biomarker features. The method also includes detecting that a stress event occurred during the assessment window. The method also includes accessing a plurality of templates of patterns in biomarker features, wherein a first subset of the templates is associated with unhealthy response to stress and a second subset of the templates is associated with healthy response to stress. The method also includes determining whether the stress event corresponds to a healthy response or an unhealthy response based on similarities between a pattern in the extracted biomarker features and the plurality of templates. The method also includes responsive to the stress event corresponding to an unhealthy response, providing a stress management recommendation.

An active suspension orthotic support system is disclosed. The suspension orthotic support system comprises at least one variable resistance beam extending from a heel section to a mid-arch section of the footwear, wherein rotation of the variable resistance beam from a first position to a second position causes a resistance provided by the variable resistance beam to vary between a minimum resistance to a maximum resistance.

An information processing apparatus includes at least one processor. The processor acquires biological information of a user which is measured by a measurement device used by the user, and derives an examination method for making a diagnosis for a body of the user as a recommended examination method based on the biological information.

A system and method of deploying an ignition interlock system. The method comprises identifying a wearable transdermal device in response to initiating wireless communication between a controller device of a vehicle system and the wearable transdermal device; receiving a transdermal alcohol measurement transmitted from the wearable transdermal device; and generating, in accordance with the transdermal alcohol measurement being above a predetermined intoxication threshold, a vehicle ignition lockout state of the vehicle system.