A motion training apparatus compact in a height direction is provided. The motion training apparatus includes an operation unit movable in an XY plane, a first actuator mechanism AX which moves the operation unit in an X-axis direction, and a second actuator mechanism AY which moves the first actuator mechanism AX in a Y-axis direction. A first belt included in the first actuator mechanism AX, a first guide rod, a second belt included in the second actuator mechanism AY, a second guide rod, a third belt, and a third guide rod are arranged between a fourth belt and a fifth belt as overlapping in a height direction.

A rotation structure includes a main body, two bearings mounted in the main body, a mandrel mounted between the two bearings, a rotation member having a first end connected with the mandrel, and a weight mounted on a second end of the rotation member. The rotation member is situated at a center of the mandrel and is perpendicular to the mandrel. The rotation member and the weight have a total length smaller than a radius of the main body. Thus, the weight is rotated in the main body without producing sound so that the main body is operated in a noiseless manner and will not produce noise during movement.

Systems, methods, and computer-readable mediums for generating, by an artificial intelligence engine, one or more alignment plans for aligning a user with an imaging sensor. The method comprises generating one or more machine learning models trained to identify alignment plans. The method also comprises receiving user data and determining that a targeted portion of a body of the user is outside of a field of view of the imaging sensor. The method further comprises generating the one or more alignment plans using the one or more machine learning models. Each of the one or more alignment plans comprises a target location within the field of view of the imaging sensor and one or more elements for adjusting the targeted portion of the body from a first location to the target location. The method also comprises transmitting the one or more alignment plans to a computing device.

The invention comprises an apparatus for arm exercise for therapy of a subject. The apparatus comprises a base comprising a planar upper surface. A first set of parallel rails are affixed to said upper surface of the base, the first set of parallel rails comprising a first rail and a second rail positioned parallel to each other and separated from each other by a predefined first distance. A second set of rails comprising at least a third rail having a first end and a second end are also provided, wherein said first end is slidably mounted on the first rail and said second end is slidably mounted on said second end. A sliding mount is slidably affixed to the second set of rails, and configured such that said sliding mount can be slidingly moved between the first end and the second end of the third rail.

A relief system for at least partially relieving the body weight of a person includes at least one first fastening device for fastening a first end of a first support device and at least one second fastening device for fastening a second end of the first support device which are formed on a cuff, such that an equally distributed tensile force is exerted on the cuff at the first fastening device and second fastening device when the first support device is guided through a guide device during a movement of the cuff when loaded by at least part of the body weight of the person. This advantageously permits a simple connection in particular of a bedridden patient to the relief system, without the patient first having to be moved, without other medical/therapeutic devices being disturbed, and without limiting the patient's stepping/walking movement.

A portable exercise apparatus including an exercise board with fixed indices marking progress made while exercising a knee which requires therapy consisting of controlled flexing and extending of the knee joint. A foot board or seated foot slide cooperatively engages and slides back and forth on the exercise board. An knee/ankle platform is removably attachable to the seated foot slide providing for active or passive knee extension stretching and a short-arc quad. A knee extension pad and roll is included for use with the slide and platform. Sensing means which may include a microprocessor control box or computer or smart device with a light and/or sound device for visual and/or auditory feedback are in communication with the exercise board provide a user with the results of flexing or extending the knee by a selected controlled amount to reach his/her range of motion goal of 110-120 degrees of knee flexion.

The present invention provides an upper limb function assessment device and the use method thereof and an upper limb rehabilitation training system and the use method thereof, wherein the upper limb function assessment device includes a display, a depth camera and a central processor, the depth camera is used to capture a user's motion, the display is used to display motion demonstration and the user's motion, and the central processor is connected to the display and the depth camera, respectively. The present invention captures the user's motion precisely with the depth camera, which makes the obtained data more accurate and objective, and also facilitates recording and storage of the obtained data. The central processor determines whether the completion of the motion meets the requirements in assessment scales, allowing the user to come up with an assessment report on his own without requiring a lot of assistance from a physician.

A computer-implemented method for (1) receiving one or more characteristics of a user, wherein the one or more characteristics comprise personal information, performance information, measurement information, or some combination thereof, (2) generating, using one or more trained machine learning models, a treatment plan for the user, wherein the treatment plan is generated based on the one or more characteristics of the user, and the treatment plan comprises: (i) a dietary plan that is tailored to manage one or more medical conditions associated with the user, and (ii) an exercise plan comprises one or more exercises associated with the one or more medical conditions, and (3) presenting, via a display device, at least a portion of the treatment plan comprising the dietary plan.

Systems, methods, and computer-readable mediums for operating an electromechanical device are disclosed. The system includes, in one example, the electromechanical device, a patient portal, and a computing device. The computing device is configured to receive user data relating to a user, and receive treatment data relating to treatment plans and outcomes. The computing device is also configured to generate a prehabilitation plan by using a machine learning model to process the user data and the treatment data. The computing device is further configured to select, for the electromechanical device, an electromechanical device configuration that enables exercises of the prehabilitation plan to be performed by the user such that performance improves an area of the user's body. The computing device is also configured to enable the electromechanical device to implement the electromechanical device configuration.

A portable lower limb therapy device having a support base and a force transfer system. The support base includes an exterior surface suitable to slide on smooth surfaces and an interior surface suitable to receive and conform to a foot of a user. The force transfer system embodied through one or two cords integrated with the support base and operates to transfer force applied behind and above the foot of a user that is in the support base to the support base. The portable lower limb therapy device may be used with a wearable anchor that is attachable to the thigh of the user of allows for the cord or cords to be fixed in place for the performance of static progressive stretch therapy motions without requiring ongoing manual force.