Provided is an information processing device including an acquisition unit configured to acquire first load information measured by a first load measurement device provided on a sole of a user and second load information measured by a second load measurement device provided to be closer to a toe of the sole than the first load measurement device and a determination unit configured to determine whether or not the user is in a pedaling state in which the user pedals a bicycle based on the first load information and the second load information.

Provided is an information processing device including an action information acquisition unit configured to acquire action information of a user, a pedaling period extracting unit configured to extract a plurality of pedaling periods during which the user pedals a bicycle from the action information, and a calculation unit configured to calculate a non-pedaling time during which the user is on the bicycle and does not pedal based on a start time of each of the plurality of pedaling periods and an end time of each of the plurality of pedaling periods.

A computer-implemented system for processing medical claims is disclosed. The system includes a medical device configured to be manipulated by a user while the user performs a treatment plan; a patient interface associated with the medical device, the patient interface comprising an output configured to present telemedicine information associated with a telemedicine session; and a processor. During the telemedicine session, the processor is configured to receive information from a medical device. Using the device-generated information, the processor is further configured to determine device-based medical coding information. The processor is further configured to transmit the device-based medical coding information to a claim adjudication server.

Systems and methods are disclosed for recommending products or services by receiving a three-dimensional (3D) model of one or more products; performing motion tracking and understanding an environment with points or planes and estimating light or color in the environment; and projecting the product in the environment.

A method for diagnosing a joint condition includes in one embodiment: creating a 3d model of the patient specific bone; registering the patient's bone with the bone model; tracking the motion of the patient specific bone through a range of motion; selecting a database including empirical mathematical descriptions of the motion of a plurality actual bones through ranges of motion; and comparing the motion of the patient specific bone to the database.

A wearable device operably worn by a user for monitoring musculoskeletal loading on a back segment of the user includes a plurality of sensors that is synchronized to each other, each sensor operably attached at a predetermined location of the user and configured to detect information about a biomechanical activity of the musculoskeletal systems, wherein the plurality of sensors comprises at least one motion/orientation sensor; and a processing unit in communication with the plurality of sensors and configured to process the detected information by the plurality of sensors to estimate the musculoskeletal loading and/or damage and/or injury risk, and communicate the estimated musculoskeletal loading and/or damage and/or injury risk to the user and/or a party of interest.

A retractor system includes a retractor with an oximeter sensor at its tip and a force sensor coupled to the retractor. The retractor system also includes a system unit which can send signals to and receive signals from the oximeter sensor via optical fibers. The oximeter sensor measures oxygen saturation of a tissue being retracted by the retractor, and the force sensor measures an amount of force that is applied to the retracted tissue by the tip of the retractor. Another retractor system has a closed loop control arrangement with a positioning mechanism which moves the retractor based on measurements of the sensors.

The present disclosure provides a flexible pressure sensor array and method for fabricating the same. The pressure sensor array comprises a pressure-sensing substrate, top electrodes and bottom electrodes. The pressure-sensing substrate comprises a piezoresistive material, a fabric and pressure-sensing columns. The top electrodes and the bottom electrodes are attached to the pressure-sensing columns. The pressure sensor array is ultra-flexible and conforms to 3-dimensional surface for pressure monitoring.

Various embodiments disclosed herein relate to systems and methods for assessing patients suffering from joint-degenerating conditions. A computer system (400) can receive patient data comprising kinematic data and anthropometric data from a patient monitoring system (100). The patient monitoring system (100) can include various sensors (102, 103) configured to detect the kinematic data and/or anthropometric data as the patient (101) performs some action(s), for example. The computer system (400) can create a patient-specific biomechanical simulation based on the patient data and calculate metrics based thereon. The computer system (400) can compare the metrics to historical data and accordingly determine a treatment strategy based on the comparison.

Techniques for patient pressure injury prevention (PPIP) include receiving, from a plurality of pressure sensors configured to be disposed in a spatial arrangement in contact with a patient, samples that indicate pressure measurements by the plurality of sensors at each of a plurality of different times. At each of the plurality of different times an angular orientation of the pressure is determined based on the samples. A change in the angular orientation of the pressure is determined at each successive time of the plurality of different times. A value of a patient movement parameter is determined based on the change in angular orientation of the pressure. A pressure injury category for the patient based on the value of the patient movement parameter is presented on a display device for a caregiver. Treatment of the patient by the caregiver is based on the pressure injury category.