A grip assessment device includes a support structure having a periphery, a cover positioned around the support structure and configured to define a grip surface, and a plurality of sensor elements disposed along the periphery of the support structure, each respective sensor element of the plurality of sensor elements being configured to generate an output signal indicative of force applied to the grip surface at the respective sensor element. The plurality of sensor elements are distributed across the grip surface such that the output signals from the plurality of sensor elements are collectively indicative of a grip profile along the grip surface, the grip profile providing grip position data and grip magnitude data correlated with the grip position data.

Disclosed is a device for restoring motion to a person's paralyzed body part, for example, the person's hand. The device senses movement of another part of the person's body not affected by the paralysis, for example, the person's arm or shoulder. Motion sensors generate motion signals as the person moves the non-paralyzed body part. A processor stores information associating a predefined trajectory with a particular action, for example, closing the hand to grasp an object. The processor monitors the motion signals and, when the motion corresponds with the predefined trajectory, the processor energizes muscle stimulators connected with muscles that control the paralyzed hand to perform the action, for example, to cause the hand to close around and grasp the object.

The present disclosure relates to a system for joint mobilization comprising a mobilization tool, a head unit, and a mobilization glove. The system is directed to relief for patients suffering from joint pain and stiffness. The system provides for a controlled approach to evaluation and treatment of joint pain and stiffness, allowing for universal implementation while minimizing inter-therapist error. Moreover, the system provides for adapting longitudinal patient care.

Described herein is a sensorized glove, in particular designed for ergonomic analysis, including an inner glove, which comprises a plurality of extensometer sensors configured for detecting relative movements between parts of a worker's hand; and an outer glove, which comprises a plurality of pressure sensors distributed over a palmar surface and configured for detecting the pressure exerted in corresponding areas of said palmar surface. Moreover described is a corresponding method for determining the type of grasp exerted by a worker.

A sensor system for determining activity of muscles. A plurality of receiving antennas are located on a wearable located proximate to a user skin's surface. A transmitting antenna is located at a location proximate to a user's skin. The transmitting antenna transmits infuses a signal to a user. Measurements of the infused signal are performed on the signals received by the receiving antennas. The measurements of the infused signal are processed and activity of the muscles of the user is determined based on the processed measurements.

A grasping-response evaluation system includes: a base mechanism; a positioning module mounted in the base mechanism; a controlling device operable to control the positioning module to switch between the grasping and releasing states; a bob to be engaged with the positioning module in the grasping state; and a traction rope connected between the bob and the base mechanism. When the positioning module switches from the grasping state to the releasing state, the bob becomes disengaged from the positioning module, falls downwardly relative to the base mechanism, and simultaneously pulls down the traction rope. When a grasping-data collecting device removably disposed on the base mechanism and connected to the traction rope is lifted by a user's hand, it pulls up the traction rope, and measures a grasping force of the user's hand.

Embodiments of the present invention provide systems and methods for analyzing cognitive status. The method includes capturing a set of observables for a subject based on their interaction with smart objects, such as smart blocks or smart items. The method further includes accessing data sets, such as medical data about cognitive function, scientific data about cognitive function, and historical data for the subject, analyzing the set of observables, and generating a report about the cognitive abilities of the subject based on the analysis.

Embodiments of the present invention provide a circuit board enclosed in an encasing with processors and memory, configured to receive and analyze data, and containing computer logic capable of receiving and analyzing data. The apparatus further includes sensors connected to the processors configured to transfer data to the processors, a power source configured to provide power to the processors, memory modules and sensors, one or more of a light source, an audio source, a vibration source, and a video source, a timing device, a wireless component and/or a wired component capable of transferring data, a light sensor capable of determining the intensity of the received light, computer logic capable of generating a report or transferring the data to a source capable of generating the report, where the report is a cognitive assessment, a comparison of cohorts, or a determination of how the subject puts together an apparatus with a second apparatus, and where the cohorts are people with same or similar diseases, conditions, ages, medical histories, social demographics, experience levels, or locations.

Individual health related events (e.g., handwashing events) can be detected based on multiple sensors including motion and audio sensors. Detecting a qualifying handwashing event can include detecting a qualifying scrubbing event based on motion data (e.g., accelerometer data) and a qualifying rinsing event based on audio data. In some examples, power consumption can be reduced by implementing one or more power saving mitigations.

A device and method for detecting control-point activation conditions corresponding to a portion of a glove body coming in contact with or being within a threshold distance from at least one of another portion of the glove body or a control surface separate from the glove body. The glove may include a conductive path attached to the glove body and an expanded conductive area conductively coupled to the conductive path and attached to the glove body. The expanded conductive area may be wider than individual portions of the conductive path.