A gait motion assisting apparatus of the present invention includes an actuator unit controlling driver so that assisting force calculated by applying gait motion timing based on detected thigh phase angle to output pattern saved data is imparted to lower leg, and a terminal device capable of wireless-communicating with control device of the actuator unit. The terminal device can receive assisting force setting value including assisting force imparting period during gait cycle and create, based on the assisting force setting value, output pattern setting data indicating a relationship between the gait motion timing and a size of assisting force to be imparted to the lower leg. The control device is configured to overwrite-save the output pattern setting data received from the terminal device as the output pattern saved data.

A cardiopulmonary resuscitation assisting apparatus including: an acceleration sensor (13); a magnetic sensor (19); a first calculation section (233A) which obtains a relational expression (N) between a compression depth Da and the coil-to-coil distance AD; a determination section (234) which differentiates the relational expression (N) with respect to an output value of the magnetic sensor (19) and compares a resulting differentiated value of the relational expression (N) with a predetermined threshold to thereby determine whether notification for assistance of cardiopulmonary resuscitation is necessary or not; and a voice generating section (25) which performs the notification for assistance of cardiopulmonary resuscitation.

A comprehensive system for treatment of wrist joint proprioception. The system includes a manipulandum unit and a controller. The unit includes a base, a handle, a linkage assembly, and motors. The base supports a subject's forearm, and the handle is gripped by the palm. The linkage assembly connects the handle to the base, and establishes three DOFs. The motors are operatively connected to the linkage assembly. The controller is programmed to actuate, and receive feedback information from, each of the plurality of motors. Further, the controller is programmed to perform wrist proprioception assessment operations by actuating the plurality of motors to effectuate movement of the handle relative to the base in a prescribed manner indicative of position motion sense acuity as an objective measure of wrist proprioception functioning. The controller is optionally further programmed to perform rehabilitation training via controlled operation of the unit and a virtually reality environment.

The gait motion assisting device according to the present invention replicates movement of user's leg including thigh and lower leg around hip joint by pendulum movement of a rod-like rigid body, estimates hip joint angle and hip joint angular velocity of thigh calculated based on equation of motion of the pendulum movement by a state estimator using angle-related signal received from a thigh orientation detecting means as the observation, calculates the thigh phase angle using the estimated hip joint angle and the estimated hip joint angular velocity, and outputs assisting force having torque value calculated based on the thigh phase angle.

The present invention relates to a movement-dependent stabilisation support system (100) for stabilising a moving body (200), which comprises a plurality of sensors (110), a plurality of actuators (120) and a control unit (130). The plurality of sensors (110) continuously detects movement parameters of the body (200), on which basis the control unit (130) determines whether there is an instability of the body (200). If it is determined that there is an instability, the control unit (130) selects a stabilisation strategy, according to which the actuators (120) are controlled. When controlled, the actuators (120) attached to the body (200) stiffen and limit the freedom of movement of the body (200), such that a movement in the direction of the imminent unstable state is prevented or suppressed. In this way, the body (200) is supported in its stabilisation and an imminent fall is prevented.

The present invention discloses a soft knee exoskeleton driven by a negative-pressure linear actuator, including: an exoskeleton controller, a left leg knee joint soft actuator, a right leg knee joint soft actuator and the like. The soft knee exoskeleton mainly uses a miniature vacuum negative pressure pump as an air pressure power source. A DSP embedded control system performs real-time processing on the data, such as a muscle force, a knee joint angle and a human-machine interaction force, detected by a sensing system, estimates a human-machine cooperation state, and performs real-time control on the switching of the negative pressure flow and an air channel of the miniature vacuum negative pressure pump.

A virtual reality game- and biosignal sensor-based VOR assessment and rehabilitation apparatus includes: a biosignal sensing unit which senses and notifies of head movement and eye movement of a patient using an eye tracker and an inertial measurement unit (IMU) sensor attached or installed to a head-mounted display device; a VOR function assessment unit which configures and provides a game for VOR function assessment; a patient-personalization control unit which determines, on the basis of the VOR gain of the patient, the types and order of rehabilitation games, and a rehabilitation level; and a rehabilitation game providing unit which configures and provides games for at least one among smooth pursuit, saccades, VOR rehabilitation exercise, amplified VOR rehabilitation exercise, and suppressive VOR rehabilitation exercise, and determines the difficulty levels of the games on the basis of the rehabilitation level.

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.