A device and a method for identifying a motion pattern of a person that allow suitable feedback about an identified motion pattern to be produced in real time, to address the disadvantage that there is no provision for direct feedback to the person in the event of abnormal behavior being detected. This is achieved by virtue of a device for identifying a motion pattern of a person having at least one sensor for capturing motion parameters and at least one evaluation unit, which is couplable to the at least one sensor, for evaluating the motion parameters and for producing a motion pattern.

A wearable device has a flexible and extendable body configured to encircle a portion of a body of a user, an electronics module with a concave space between two ends, each end attachable to the flexible and extendable body with a flexible retention mount to allow rotation of the flexible and extendable body relative to the electronics module and to transfer tension force from the flexible and extendable body to the electronics module, and a bio-signal sensor disposed on the flexible and extendable body to contact at least part of the body of the user and to receive bio-signals from the user.

Systems, devices, and methods are provided which provide a processor in a server computer, a device including an optical sensor, and a cane. The device may be connected electronically to a cane through wired or wireless technology. The cane may include a haptic controller which provides a notification to a user.

Provided are a method and apparatus for adjusting a control parameter value in association with a torque output to provide a force to a user, which, when the user performs a test walk while wearing a wearable device, assesses suitability of the control parameter value used for outputting the torque based on the torque output through the test walk and state information of a joint of the user and adjusts the control parameter value such that the user feels convenience in walking, in order to adjust the control parameter value.

A walking support system is a walking support system which supports walking of a user, and includes a display unit, a landing timing detection unit configured to detect landing at the time of walking of the user, a target landing timing setting unit configured to set a target landing timing of the user on the basis of an output of the landing timing detection unit, and a display control unit configured to cause the display unit to display an auxiliary image prompting the user to land at the target landing timing.

An adjustable knee ankle foot orthosis for unloading weight from a knee joint afflicted with osteoarthritis, thus reducing pain and improving mobility, comprising: an upper and lower frame connected by an unloading hinge assembly, optionally comprising a sensor and processor allowing for remote or automatic control of brace tension. In embodiments, the brace includes a user mechanism that is capable of adjusting a tensioning element while the brace is being worn. In other embodiments, electronic motors, sensors, and indicators may be included in the brace to improve brace performance and user interaction.

A massage device includes a main body having a gripping section adapted to be held by a user, a massaging head, and an actuator configured to effect a reciprocating movement of the massaging head relative to the gripping section. The massaging head includes a negative pressure cavity connected to the suction pump.

A massage applicator including a housing, a piston having a proximal end and a distal end, a motor within the housing operatively connected to the piston, wherein the motor is configured to cause the piston to reciprocate, an applicator controller configured to operate the motor, and an attachment head releasably coupled to the piston so as to be located at the distal end of the piston, the attachment head including at least one sensor configured to collect sensor data, wherein the applicator controller is configured to adjust operation of the motor based on the collected sensor data.

An exoskeleton wear management method is provided. The method includes receiving inertial data from a sensing system; determining whether a left leg component of an exoskeleton device is parallel to a left leg of a user and a right leg component of the exoskeleton device is parallel to a right leg of the user according to the received inertial data; in response to determining that the left leg component/the right leg component is not parallel to the left leg/the right leg of the user, prompting an adjusting left leg component message/an adjusting right leg component message; and in response to determining that the left leg component is parallel to the left leg of the user and the right leg component is parallel to the right leg of the user, prompting a left leg component and right leg component correctly-worn message.

A mobility device including one or more sensors configured to transmit user mobility data to an external electronic device such as a smartphone or a computer. In embodiments, the mobility device can be a cane, crutch, walker, wheelchair, walking stick, or walking pole. A system for measuring real time mobility data of a user is also disclosed.