Disclosed herein is a stair climber that includes a frame having a base, an upper axle and a lower axle, and steps revolvably coupled to the upper axle and the lower axle. The stair climber also includes an electric brake mechanism operating in generative mode and coupled with the steps and configured to provide a variable resistive force. Also included is a controller that receives an indication of a selected exercise mode from a user that includes a first speed, a second speed, and a difficulty level. The controller also balances a load, in a learning mode, on the steps based a user's weight at the first speed, and controls, in response to the user applying an additional load to the steps via a rail system, the electric brake mechanism to apply the difficulty level of the selected exercise mode and prevent the steps from exceeding the second speed.

Described herein is a muscle trainer including a first and a second curved, elongate spring element, the two spring elements being arranged with their concave sides facing each other, having joint elements at their respective end areas and being connected to each other at their two end areas via joints formed from the joint elements. Also described herein is a method for producing such a muscle trainer.

A method for monitoring of exercises performed by a user includes providing the user with a pair of gloves (110, 120), wherein each of the gloves (110, 120) comprises a measurement module (130). The method also includes performing the following steps, in real time, while the user performs the exercise while wearing the gloves (110, 120): at each glove, during performance of the exercise set, reading and pre-processing (201) measurement data from the sensors (132) and accelerometer (133) in the gloves (110, 120) to determine at least a standardized total force measured by the sensors (132) during performance of the exercise set; and by means of the signaling system (143), providing a feedback (204) to the user, wherein the feedback indicates at least a balance between the standardized total force measured at the left glove (110) and the right glove (120).

Aspects of the present disclosure involve an exercise device including a base member, a pair of tower members, and a strap. The base member includes a substantially planar bottom surface, a top surface opposite the bottom surface, and an opening extending through the top and bottom surfaces. The pair of tower members extends upward from opposite ends of the top surface of the base member. The strap releasably secures to each of the pair of tower members at a chosen height and with a chosen amount of slack. The strap includes a handle positioned between a first end and a second end of the strap, wherein the chosen amount of slack of the strap is adjustable by coupling the strap to each of the pair of tower members at different positions on the strap.

A method and apparatus for Activity Environment Generator (AEG) is provided. The AEG allows a user in a variety of settings such as: domestic settings, office chairs, TV chairs, train seats, airplane seats, domestic or hospital beds. The AEG is particularly useful in the fields of rehabilitation, physiotherapy, injury prevention, falls prevention, training and wellness in general and may also provide recreational and/or entertainment elements. The AEG provides dynamically controllable forces with which the user interacts in the course of his/her activity. In one aspect of the invention, the forces provided by the AEG are generated by a magnetic field. In another aspect of the invention, the forces provided by The AEG are generated by a pneumatic actuator. The AEG is optionally scalable and/or modular and, in specific embodiments, may include one or more of the following: a Remote Trainer, an AEG-Accessory, an AEG-Wearable, optimization by Big Data and machine-learning.

A physical training system includes a belt for fixing around the waist of a person and that includes a plurality of belt extension straps each adapted for fixing with the belt at any location therearound and preferably adjustable in length. Two shoes are adapted for wearing on the person's feet, each shoe including at least four attachment loops at opposing quadrants of the shoe and optional shoe extension straps. A plurality of elastomeric bands are selectively fixable between any of the belt extensions straps and the attachment loops or shoe extension straps of the shoes. A shoulder harness comprising two straps is included for attachment to and positioning of the belt. As such, in use, the person while running experiences resistance as each leg extends into a fully extended position, and a reduction or cessation of resistance as each leg retracts into a non-extended position.

An upper body exercising device attaches to and is used in conjunction with a stationary bicycle having a seat tube. The upper body exercising device includes a pair of resistance mechanisms, and a clamping mechanism. The pair of resistance mechanisms are disposed on opposite sides of the clamping mechanism, respectively, and provide resistance for a user. The clamping mechanism attaches to the seat tube of the stationary bicycle so as to attach the upper body exercising device to and use in conjunction with the stationary bicycle.

Intended to prevent self-extubation of nasal or oral tubes of an awake patient who may reflexively attempt removal of such and allow the early mobilization and exercise necessary for preservation of as much muscle strength as possible, promotion of diaphragmatic motion necessary for liberation from a ventilator, reduction of patient stress allowing for sedation minimization and improved cognition for reduction of delirium and post-intensive care syndrome, and relief of medical staff and healthcare dollars to focus more on healthcare rather than on protection from self-harm.

The invention relates to a garment for sports, health exercise, physiotherapy or another performance, the garment comprising a body part (BP) of the garment and one or more limb parts (L1, L2, H1, H2) of the garment which extend from the body part of the garment. The garment comprises one or more elastic reinforcements (B1, B2, B3) routed in the garment in accordance with one or more fascial lines (FL1, FL2, FL3) of a human body. The elastic reinforcements form a network, being provided both on a front side of the garment and a rear side of the garment.

In an embodiment a system for facilitating a subject's functional development includes sensing devices configured for sensing mind state signals; sensing devices configured for sensing body state signals; and a set of processing resources configured for generating a mind state indicator/measure, a body state indicator/measure, and a mind-body synergy indicator/measure that corresponds to an expected extent to which each of the subject's mind state and the subject's body state are cooperatively or synergistically aligned with respect to facilitating the subject's functional development. In an embodiment, the system can be configured for concurrently presenting a set of activities involving a model body part; engaging the subject in attempted imitation of the set of activities by way of attempted movement of a subject body part that is a mirror image of the model body part; presenting an indication of an expected extent to which each of the subject's mind state and body state are cooperative with respect to subject performance of the set of activities; and presenting an indication of an extent of subject relaxation. An associated multiple (e.g., up to 12) degree of freedom robotic orthosis can include a set of appendage motion modules configured for engaging with a portion of a subject appendage; a set of mechanical power interface modules coupled to the set of appendage motion modules and configured for facilitating movement of appendage motion modules within the set of appendage motion modules; and a set of flexible drive shafts couplable to the set of mechanical power interface modules.