Embodiments disclosed herein relate to an exercise system having a pair of stationary support members, each having a lower portion and an upper portion, the upper portion being at an acute angle relative to the lower portion. The system also has a pair of rotatable support members configured to rotate between a first position wherein the first rotatable support member is generally adjacent to the upper portion of the stationary support members and a second position wherein the first rotatable support member is generally adjacent to the lower portion of the stationary support members. The system has a first and a second carriage member translatable along at least a portion of the rotatable support members and a barbell coupled with the first and second carriage members.

A kinesthetic exercise support apparatus is provided assistive of extension and flexion during calisthenics. The kinesthetic exercise support apparatus includes a hoop member, a hub member, a handle bar member, and a pair of chock members. The hoop member is disposed girding the hub member and includes a padded surface thereon. The hoop member has a width greater than a width of the hub member whereby the hoop member is caused to laterally overhang the hub member on either side. A handlebar member is insertable transversely through the hub member at each of a central aperture and at least one radial aperture. A pedal assembly is attachable to the handlebar member. A pair of chock members is further provided and devised to stabilize and immobilize the hoop member therebetween.

A free weight bar stabilizer, to be used with a standard sized bar and attached barbell plates. The stabilizer includes a beam pivotally attached to a frame at a pivot point so that it is angularly movable in an arc between a raised position and a lower position, and a bar carriage attached to the beam so that it is linearly movable radially out from the pivot point between a retracted position and an extended position. The bar carriage includes spaced distal arms with attachment points for attaching the bar to support its opposing ends. The bar is thus freely movable within an envelope defined by the ranges of the simultaneous angular movement of the beam and the linear movement of the attachment points on the carriage. The free weight bar stabilizer may also include a counterweight carriage that simultaneously moves on the beam in the opposite direction of the bar carriage to counterbalance the weight of the bar carriage, so it does not add to the quantity of the weight being lifted and reduces push and pull of the bar carriage. Further, the bar stabilizer may include an assisting weight mechanism to assist when working heavy negatives, by providing a counterweight to reduce the actual weight being lifted at a predetermined point as the beam moves towards the lower position. An alternate embodiment of the bar stabilizer includes pivoted main beams that are formed by spaced parallel rails that receive the bar and counterweight carriages in the spacing between the rails. This provides a clean, uncluttered design that maximizes the open area available to the lifter in the vicinity of the bar.

Controlling weight during a movement includes receiving a set of parameters comprising a nominal weight. It further includes detecting speed during a concentric phase. It further includes progressively adjusting weight during the concentric phase based on the detected speed and the nominal weight.

A body impact protection system includes an inner layer and an impact force dampening and defusing structure. The inner layer includes a material composition and is adjacent to a body part when the body impact protection system is worn. The impact force dampening and defusing structure is juxtaposed to the inner layer and includes a plurality of components. The components function to reduce pressure on the body part from an impact force on a layer by layer basis. Each layer of the system dampens and defuses the impact force such that, by the time it reaches the body part, it has been substantially attenuated and spread over a large area.

An interactive exercise system includes a mechanical support system and a display module held by the mechanical support system. A mirror element is attached to at least partially cover the display module. At least one movable arm is connected to the support system and at least one force-controlled component is connected to the mechanical support system. The force-controlled component can be graspable by a user and allows for a range of exercise types and programs.

Dynamic strength loading per movement includes determining progress within a given state of an exercise. It further includes controlling, as a function of the progress within the given state of the exercise, a force generated by a motor of an exercise machine.

An upper and lower limbs walking rehabilitation device of the present invention includes a foot stepping part, and comprises: a lower frame part; a lower limb link unit provided between the foot stepping part and the lower frame part and providing a walking trajectory to the foot stepping part; an upper frame part detachably provided at the upper end of the lower frame part by means of a detachment part; an upper limb link unit provided at the upper frame part and implementing the movement of upper limbs; and an upper linking part for linking the upper limb link unit and the lower limb link unit.

Techniques for strength training using an exercise system including an electric linear motor. The exercise system includes a stand, including the electric linear motor comprising a mover and a rotor, and a user interface. The exercise system further includes an exercise attachment coupled to the mover in the electric linear motor, and a controller configured to control force generated by the electric linear motor, where an amount of force required to move the exercise attachment changes based on the force generated by the electric linear motor, and configured to display information related to moving the exercise attachment.

An exercise machine is disclosed. The exercise machine comprises a pancake motor. The exercise machine comprises a torque controller coupled to the pancake motor. The exercise machine comprises a high resolution encoder coupled to the pancake motor.