A method includes providing a first video file to a plurality of exercise machines, the first video file including content associated with an exercise class. The method also includes receiving user data from the plurality of exercise machines, the user data including respective settings associated with a common performance metric. In such a method, the respective settings are used on the plurality of exercise machines during playback of a particular part of the first video file. The method also includes identifying a timestamp associated with the particular part of the first video file, and generating an executable control corresponding to the performance metric. The method further includes generating a second video file comprising the content and the executable control. In such methods, playback of the second video file causes display of the executable control at a part of the second video file corresponding to the timestamp.

Haptic simulation device that allows a user, by means of natural body movements, to move through a virtual environment displayed by a VR control system (1) and display means (2), using a treadmill with a unidirectional (5) movable miming deck (6). The detection means comprise a control member (7) with a shape such, that the control member extends in front of and/or at least partly to the side of the user, during use of the device when the user is on the treadmill. The control member is coupled to a rotational pressure sensor (8) and one or more transverse pressure sensors (10). The rotational and transverse pressure sensors are coupled to the VR control system and the treadmill control system such that (a) if the user exerts forward or rearward pressure to the control member, the running deck moves rearward and forward, respectively, and (b) if the user additionally exerts a rotational pressure and/or a transverse pressure on the control member, the VR control system moves the virtual environment displayed in the VR display

A training and exercising assembly for training while stepping, walking, or running includes a frame and a pair of rollers. Each roller is rotationally engaged to and extends between opposed side beams of the frame. An endless belt is positioned around and is operationally engaged to the pair of rollers. A motor is operationally engaged to at least one of the rollers and is positioned to selectively rotate the at least one of the rollers to rotate the endless belt. A user can selectively step, walk, and run upon an exposed surface of the endless belt. A plurality of attachment elements is engaged to the frame and extends around the endless belt. Each attachment element is selectively engageable a respective exercise device. The respective exercise device is removably engaged to the frame and is positioned for engagement by the user positioned on the endless belt.

A method for estimating a maximum power value generatable by a user during a resistance training exercise on an exercise machine includes executing at least three resistance training exercises. The push load to be set for the third execution of the resistance training exercise depends on the comparison of the last measured power peak value with the power peak values measured during the previous executions of the resistance training exercise.

A bicycle simulator includes a base portion having a frame shape; a frame support portion supported by the base portion and supporting a bicycle frame connecting a front wheel of a mounted bicycle to a rear wheel of the mounted bicycle; a first treadmill extending in a running direction of the bicycle, supporting the front wheel of the bicycle, and rotating according to rotation of the front wheel; and a second treadmill extending in the running direction of the bicycle, supporting the rear wheel of the bicycle, and rotating according to rotation of the rear wheel, wherein the frame support portion is disposed between the first treadmill and the second treadmill.

A system includes an exercise machine and a computing device coupled to the exercise machine. The computing device presents a metrics bar within a graphical user interface in an initial state, detects a start of a first workout experience by a user on the exercise machine, retrieve a first set of metrics from stored user preferences data based on a workout experience type, workout type, and exercise machine type of the first workout experience, and displays the first set of metrics in a display area of the metrics bar during the first workout experience. The computing device detects a start of a second workout experience, determines a second set of metrics from the stored user preferences data based on a workout experience type, workout type, and exercise machine type of the second workout experience, and displays the second set of metrics in the metrics bar during the second workout experience.

An exercise apparatus includes a motor, an operating member driven by the motor, a sensor operable to detect engagement of a user with the operating member, and a controller in communication with the operating member and the sensor. The controller is configured to generate exercise use data when the operating member is driven by the motor. A communication interface is in communication with the controller. In response to the controller determining that the user is engaged with the operating member, the controller is configured to report the exercise use data to the communication interface. In response to the controller determining that the user is not engaged with the operating member, the controller is configured to stop reporting the exercise use data to the communication interface. The communication interface is configured to communicate the reported exercise use data to a third party.

An offloading system for use with a treadmill includes an air chamber configured to be selectively inflated between a deflated condition and an inflated, operating condition, a user seal coupled to the air chamber and adapted to receive a user so that, in the operating condition, at least a portion of the user is received in the user seal and positioned within the air chamber, a pump operable to inflate the air chamber, and a controller configured to determine an occurrence of a loss of pressure in the air chamber and, in response to the occurrence, cause a reduction of speed of a running belt of the treadmill.

A height-adjustable seal frame structure for a DAP exercise system has a seal frame, opposing lateral vertical lifts, and opposing lateral tensile restraints. The seal frame defines opposing lateral side restraint connectors and can be attached to an inflatable enclosure top portion about a user port. The vertical lifts can be attached at lateral sides of the system and a longitudinal position proximate the user port for vertically driving a carriage to adjust height. The first end each tensile restraint can securely attach to a lift carriage connector and the second end can securely attach to the corresponding restraint connector at a restraint length therebetween. In use, the seal frame can be retained in a floating arrangement forced upward solely by the enclosure top portion and restrained downward against the upward force at a seal frame height by the tensile restraints. Quick disconnects can permit manual seal frame release.

The present disclosure discloses a vertical-column folding mechanism and a foldable treadmill. The vertical-column folding mechanism includes a first arm and a second arm; the first arm and the second arm are rotatably connected; a supporting member mounting cavity is arranged in the second arm; a retractable supporting member is arranged in the supporting member mounting cavity; two ends of the supporting member are respectively rotatably connected to the first arm and the second arm; and a rotatable connection point of the first arm and the second arm and rotatable connection points of the two ends of the supporting member are in a triangular distribution. The foldable treadmill includes the vertical-column folding mechanism.