A method includes fixing at least one sensor to a body part of a person, sending signals, with the at least one sensor, to an electronic data processing device, the signals containing measurement data and an individual sensor identifier, and determining, with the electronic data processing device, the body part on which the sensor is arranged or is to be arranged, and allocating the measurement data of the at least one sensor to the body part.

A prosthetic device includes a frame defining an output axis, a cantilever beam spring attached to the frame, a moment arm attached to the spring, and a rigid output arm coupled to the frame and rotatable about the output axis. A connector assembly is configured to apply a moment to the cantilever beam spring via the moment arm while applying a torque about the output axis via the output arm. An ankle-foot device includes foot and ankle members connected for two-degree of freedom movement relative to one another, allowing for rotation about an ankle axis and rotation about a subtalar axis. Two linear actuators, each coupled to corresponding series elastic element, link the foot and ankle members. Driving the actuators in the same direction causes rotation about the ankle axis and driving the actuators in opposing directions causes rotation about the subtalar axis. A processor receives sensory information from a sensor and drives the actuators to control an equilibrium position of the series elastic elements. A rotary actuator for a prosthetic device includes a housing frame, a motor mounted within the housing frame, and a cycloidal drive coupled to the motor within the housing frame. A torsion shaft can extend through the actuator to an output and provide a series elastic element.

An electromyography (EMG) sensor for a wearable device, such as a prosthetic device attachable to a residual limb, includes a flexible substrate comprising an elongated portion and an electrode portion. At least two electrodes are disposed at a surface of the electrode portion of the flexible substrate, and leads from the at least two electrodes extend through the elongated portion of the flexible substrate.

A prosthetic or exoskeleton component for a prosthesis or exoskeleton includes a shock-absorbing unit. The shock-absorbing unit contains a damping device that can be controlled by way of a control device. A detection device has a sensor unit for receiving a signal. The detection device is configured to detect uneven ground depending on the acquired signal and to control the damping device in response to the detected uneven ground such that a damping property of the damping device can be adjusted on the basis of a signal of the detection device.

The disclosure provides apparatus and methods of use pertaining to a bidirectional biomechanical prosthetic finger assembly. In one embodiment, the assembly includes an eccentric metacarpophalangeal (MCP) pivot configured for swivelable attachment to a hand of a user, a distal coupler, and an articulation assembly rotatively coupled therebetween. A ring configured to receive a user's residual finger is disposed upon the articulation assembly, and may be adjusted to a target location based on a length of the residual finger. The articulation assembly is configured to utilize vertical movements of the residual finger within the ring to articulate the distal coupler within a plane parallel to an x-z plane, and the MCP pivot is configured to utilize lateral movements of the residual finger within the ring to articulate the distal coupler within a plane parallel to an x-y plane. Other embodiments are also disclosed.

System, methods, and other embodiments described herein relate to a device for providing mobility assistance to a user. In one embodiment, a mobility system includes a support component including at least a waist device that is configured to secure the mobility system to the user at a waist area of the user. The mobility system includes a limb attached to the support component and extendable from the support component to a floor when the user is in a standing position. The limb is configured to support the user by providing a rigid structure between the floor and the user. The limb is configured to assist the user in transitioning from a seated position to the standing position by applying a substantially upward force to the user through the support component when transitioning to the standing position.

Various aspects of the present disclosure characterize apparatuses and/or methods as may be implemented with a variety of prosthetic components and applications. As may be consistent with one or more embodiments described herein, movement parameters pertaining to movement of a user of a prosthetic foot are sensed as the user travels along a surface, with the prosthetic foot having a front ball region and a rear heel region for respectively contacting the surface. A state of movement of the user, including a speed at which the user is travelling along the surface, is determined based on the sensed movement parameters. Utilizing a mechanical actuator, the prosthetic foot is dynamically positioned in response to the speed at which the user is travelling along the surface, by manipulating the mechanical actuator to move the rear heel region relative to the front ball region based on changes in the speed.

Methods and systems for assisting hemiplegic and hemiparetic patients are described herein. A wearable gripper system assists a user with one functional hand to independently perform basic tasks. A wearable gripper is located on the forearm above a disabled hand. The user controls the wearable gripper easily and intuitively based on gestures measured by an instrumented wristband device. Movements detected at the functioning wrist and forearm are translated into the motion control commands communicated to the actuators of the wearable gripper. In this manner, the wearable gripper assists the user to manipulate objects in lieu of the disabled hand. In some embodiments, a number of conductive, stretchable string sensors are wrapped around the hand of a user to estimate wrist and hand motion. In some embodiments, a gripper actuator includes two or more fingers, each having a location dependent shape profile and compliance to accommodate different manipulation tasks.

Systems and methods for controlling a weight bearing member having at least one powered joint are provided. A system includes a velocity reference module for receiving myoelectric control signals from a user during a non-weight bearing mode for the powered joint and generating a velocity reference for the powered joint based on the myoelectric control signals. The system further includes a volitional impedance module for generating a torque control signal for actuating the powered joint based at least on the velocity reference.

A device and method for managing a plurality of groups of socks where the device includes a plurality of pouches attached to one another and a patient education and compliance tool. Each group has at least one sock. Socks of each of the groups have different characteristics from one another. The groups of socks are adapted for use between a limb of a patent and a socket of a prosthetic device. Each pouch is adapted for securing at least one sock from a group. The method includes sorting the plurality of groups of socks according to the characteristic, associating each pouch with a respective one of the groups, and securing each group of socks within an associated pouch.