This invention relates to a mobile health and fitness reactive immersive activity space embodied with a plurality of modules and more particularly to a motorized or towed vehicle or vessel with its structural space embodied in modular assembly with sensory flooring and walls, providing a immersive platform for performing health assessments and treatments as well as physical and mental health fitness activities for functional training and therapy, using a plurality of sensors, electronics, electrical and ambient audio-visual stimulation that can be programmed to suit the specific needs of an individual or a group of individuals.

An apparatus and method for physical therapy includes a base structure, a roller table positioned on the base structure including a plurality of free motion rollers, at least one motor and/or and at least one air compressor connected to the base structure, a plurality of powered rollers or a contact plate located within the base structure being in contact with the plurality of free motion rollers, at least one pneumatic block with a pneumatic piston connected to the at least one air compressor and being configured to raise and lower the power rollers and/or the contact plate, a load cell in communication with the apparatus being configured to measure and record a patient's response to the transition of the roller table and/or the contact plate, and a programmable logic controller.

The present disclosure relates to systems and methods for measuring the location, the amplitude, and/or the direction of forces applied to a walking or running surface. An example system includes a pressure-sensitive sheet that extends along a first axis. The pressure-sensitive sheet includes a top surface and a bottom surface. A vertical force applied at a location along at least one of the top surface or the bottom surface forms an electrical path between the top surface and the bottom surface having a resistance, r.sub.f, that is inversely proportional to an amplitude of the vertical force. The system further includes read out circuitry configured to provide information indicative of the amplitude of the vertical force and the location of the vertical force along the first axis of the pressure-sensitive sheet.

Provided are a to-be-detected implement for rehabilitation training and a rehabilitation training system. The to-be-detected implement for rehabilitation training comprises: a cylinder-shaped main body with an opening in at least one side thereof; a first electrode portion formed on one region of the circumference of the main body; a second electrode portion separated from the first electrode portion and formed on another region of the circumference of the main body; and a guide portion which is formed between the first electrode portion and the second electrode portion to block the electrical connection between the first electrode portion and the second electrode portion, and which is recessed or protrudes at the circumference of the main body to a predetermined depth.

The present invention discloses a connecting rod-type lower limb exoskeleton rehabilitation robot, comprising a treadmill, two pneumatic muscle frames, two transmission devices and two lower limb exoskeletons; the pneumatic muscle frame includes a thigh rotating shaft, a calf rotating shaft, a hip joint shaft, pneumatic muscles and a support frame; the transmission device includes a thigh transmission mechanism and a calf transmission mechanism; the thigh transmission mechanism is a parallel four-connecting-rod mechanism composed of a thigh rotating arm, a thigh connecting rod and a thigh skeleton; the calf transmission mechanism includes two four-connecting-rod mechanisms; and the lower limb exoskeleton is connected to the pneumatic muscle frame through the transmission device. Compared with other exoskeleton rehabilitation robots driven by pneumatic muscles, the exoskeleton rehabilitation robot in the present invention, which concentrates all pneumatic muscles in the pneumatic muscle framework, has a simple, compact structure, and is safe and easy to operate.

A training apparatus for fencing, the training apparatus including: (a) a movement mechanism having an extended state and a retracted state, the movement mechanism adapted to be coupled to a support structure on a first end thereof; (b) a target platform, the target operationally coupled to a second end of the movement mechanism; and (c) a computing component, the computing component electronically coupled to the movement mechanism and configured to control movement of the movement mechanism between the extended state and the retracted state.

A treadmill may be configured for gait training and/or therapy with attachable/detachable barriers affixable to a belt and/or with a vertical obstacle module and/or with sensor systems, but without requiring hoists, harnesses, attachments to the treadmill or base, or frame, and/or excessively high treadmill frames, such as those that exceed the height of the person on the treadmill. The barriers on the belt are configured to modify movement of only one foot of a person on the treadmill. The treadmill may use a single, integral belt. Methods of gait training and/or therapy may involve such treadmills without excessive expense and without excessive modification of standard treadmill equipment.

An upper limb rehabilitation training system in two-person standing type and an application method thereof are provided. The upper limb rehabilitation training system includes an upper limb rehabilitation training platform, two weight-reducing suspending support structures arranged oppositely, and two standing frames arranged oppositely; the upper limb rehabilitation training platform includes an all-in-one computer which includes a computer and a touch display screen, and a periphery of the touch display screen is provided with a grating structure; the upper limb rehabilitation training platform is provided with a two-person interactive upper limb training module including two control handles, a virtual training prop and a virtual training scene. The two control handles are suspended from the two weight-reducing suspending support structures, respectively; the grating structure is configured to identify the control handles and positions thereof. The computer controls the two control handles to perform game interaction with the virtual training prop.

An exercise machine has a main frame, two base link members supported for cyclical movement on base tracks on the main frame, two handles pivotal about a handle axis on the frame in which the handles are operatively connected to the base link members respectively such that a cyclical movement of the handles drives the cyclical movement of the respective base link members, a foot support carried on each base link member for supporting a respective foot of the user thereon through a walking motion of the user as the base link members are moved cyclically, a torso support on the main frame supporting a torso of the user thereon having one or more degrees of freedom relative to the main frame, and leg linkages connected between the main frame and respective ones of the base link members with bracing to secure legs of the user therein.

Automatic salmon ladder training devices are provided. An automatic salmon ladder training device may include a frame and a rotation assembly. The rotation assembly may include a plurality of rotation subassemblies. The plurality of rotation subassemblies may each include a chain rotatably engaged by the rotation subassembly, a rung fixedly connected to the chain, and a fixed rung fixedly connected to the frame. Each of the rotation subassemblies are configured to rotate in concert with one another. For example, a left rotation subassembly and a right rotation subassembly may be configured to rotate in concert with one another.