An apparatus and method are provided for imparting a repetitive motion to a user. The apparatus may include one or more seat platforms and one or more backrests. Repeated motion of the pelvis and shoulders of the user may be contra lateral. The motions of the user may mimic walking. The apparatus may include a chair. The apparatus may include a sensor. The sensor may be used to control the apparatus and/or the sensor may be used to adjust the movement regime according to the user. The apparatus may help for example, to mobilize limited mobility users and/or to train healthier habits.

An exercise device comprises a base. A power mechanism and a vibration mechanism are each disposed in the base. The power mechanism powers the vibration mechanism. The vibration mechanism provides linear vibrations through the base of the device in a first axis parallel to a longitudinal axis of a user standing on the base. In some embodiments, the device is substantially free of vibration in a plane orthogonal to the first axis and is substantially free of rotational vibration in any direction at a time when the vibration mechanism provides the first plurality of linear vibrations. In some embodiments, the vibration mechanism operates between 10 and 60 Hz. In some embodiments an exercise kit is provided that includes the referenced exercise device, an exercise bar, and one or more elastic bands, each elastic band for removably coupling the base to the exercise bar.

An exercise device comprises a base. A power mechanism and a vibration mechanism are each disposed in the base. The power mechanism powers the vibration mechanism. The vibration mechanism provides linear vibrations through the base of the device in a first axis parallel to a longitudinal axis of a user standing on the base. In some embodiments, the device is substantially free of vibration in a plane orthogonal to the first axis and is substantially free of rotational vibration in any direction at a time when the vibration mechanism provides the first plurality of linear vibrations. In some embodiments, the vibration mechanism operates between 10 and 60 Hz. In some embodiments an exercise kit is provided that includes the referenced exercise device, an exercise bar, and one or more elastic bands, each elastic band for removably coupling the base to the exercise bar.

In various embodiments, provided herein are systems, methods, processes, and devices for providing locomotive rehabilitation to a subject via one or more gait motions that substantially accurately mimic motions performed in healthy, natural gait cycles. The system may mimic natural gait motions via footplates and handles, and one or more linkage systems. In particular embodiments, the system may further include a motor unit and/or clutch for providing controlled forces assisting or resisting motions of a linkage system. Further, the system may include a tower for operating in a standing or seated position. In at least one embodiment, the system includes a body weight support system that provides offloading forces to a subject.

Described herein are methods for determining a target musculoskeletal activity cycle (MSKC) to cardiac cycle (CC) timing relationship. The method may include detecting a signal responsive to a cyclically-varying arterial blood flow at a location on a head of a user; providing a recurrent prompt at a frequency of the heart pump cycle using the signal, such that the signal correlates with a magnitude of blood flow adjacent to the location, and the recurrent prompt is provided to guide the user to time performance of a component of a rhythmic musculoskeletal activity with the recurrent prompt; and guiding the user to adjust a timing of the component of the rhythmic musculoskeletal activity to substantially maximize a magnitude of the signal. In some embodiments, the method further includes generating the recurrent prompt by amplifying the sound generated by the blood flow in or in proximity to an ear of the user.

A patient support apparatus for supporting a patient includes a mattress with an inflatable mattress portion with a plurality of states. The apparatus further includes a control system to control inflation or deflation of the mattress portion to change its state between two or more of the states. The apparatus further includes a user interface in communication with the control system, which is configured to allow a user to select an inflate or deflate function of the mattress portion to change the state of the mattress portion. Further, the control system is operable to inflate or deflate the mattress portion in response to the signal being generated when a user selects an inflate or deflate function at the user interface. The control system is configured to generate a notification indicative of the selected state of the mattress portion to remind to a caregiver to change the selected state.

Disclosed are an individually customized sleep massage chair using sleep state data and a control method thereof. The present disclosure induces a user to enter the sleep state, analyzes the sleep state of the user, thereby providing a result thereof, and performs control according to the analysis result such that the shape of the chair is changed so as to maintain the sleep state of the user.

Described herein are customized, intelligent outerwear created through additive manufacturing and integrated with a plurality of sensors, actuators and other electronics to monitor user activity and provide various diagnostic and therapeutic capabilities. The outerwear is additively manufactured using a three-dimensional (3D) printer to provide for dynamic configurations of the sensors, actuators and other electronics depending on the specific needs of an individual. In addition to sensors for tracking motion, resistance, temperature and temporal features, the actuators may include piezoelectric components and microfluidic components to provide for therapeutic treatments, medical treatments and accident avoidance features. The combination of sensors and other electronics may also provide applications for monitoring overall health and growth.

The present invention discloses a simulator system and method for exercising the limbs of a user confined to the wheelchairs. The method of rehabilitation of the user includes providing a simulator system mountable on the wheelchair, configuring various parameters associated with a gear motor, and a pair of pedals using a user interface device, configuring the pedals in a specific direction and position, initiating exercise by using the user interface device, monitoring a set of information related to pedaling during or after the exercise on the user interface device, receiving the parameters associated with the gear motor, the pair of pedals from the user interface device, and sensors, analyzing the parameters received from the sensors and the user interface device, and generating corrective commands based on the analysis of the received parameters.

A performance evaluation apparatus and performance evaluation method capable of efficiently evaluating the performance of a wearable motion assistance device is provided, which assists motions of a wearer's lower back part. In a state where the wearable motion assistance device is secured and mounted on both femur links and a trunk link, torque acting on an axis line of a pitch direction relative to the trunk link for each hip joint is detected while controlling driving forces by first and second driving sources so that a posture of the trunk link and rotation angles of each hip joint and each knee joint virtually match motions of the lower back part of the wearer; and performance of an assist force by the wearable motion assistance device is evaluated based on a detection result of the torque according to drive control of the first and second driving sources.