A method is disclosed for using an artificial intelligence engine to interact with a user of an exercise device during an exercise session. The method includes generating, by the artificial intelligence engine, a machine learning model trained to receive data as input, and based on the data, providing an output. While a user performs an exercise using the exercise device, the method includes receiving the data from an input peripheral of a computing device associated with the user. Based on the data being received from the input peripheral, the method includes determining, via the machine learning model, the output to control an aspect of the exercise device.

An indoor, stationary, bicycle training device that provides advantages over conventional designs of exercise bicycles is provided. The stationary bicycle may include a tilting/pivoting mechanism to orient the indoor bicycle to simulate descending or climbing. The indoor bicycle may include flexible and resilient frame elements to support the indoor training device to move side-to-side under some riding situations thereby simulating the side-to-side swaying motion of an outdoor bicycle under the same riding situations. The indoor bicycle may include several combinations of frame adjustments to provide configurable dimensions of the indoor bicycle to adjust the frame to properly fit the rider, which may be adjusted based on corresponding dimensions of a user's outdoor bicycle. Still other aspects of the stationary bicycle device may aid in creating an outdoor feeling while using the device.

Disclosed is an exercise apparatus for use with a wheelchair (102) for exercising lower limb of a user. The exercise apparatus includes various mechanical attachments (104a, and 104b), housings (112a, and 112b), shafts (114a, and 114b), and pedals (116a, and 116b). The mechanical attachments (104a, and 104b) include various proximal ends (106a, and 106b) and distal ends (108a, and 108b). The proximal ends (106a, and 106b) are detachably attached to the wheels (110a, and 110b) of the wheelchair (102). The housings (112a, and 112b) are located at the distal ends (108a, and 108b) of the mechanical attachments (104a, and 104b). The shafts (114a, and 114b) are rotatably connected to the housings (112a, and 112b). The pedals (116a, and 116b) are attached to the shafts (114a, and 114b) to receive the feet of the user. The pedals (116a, and 116b) are operable to move circularly by the feet of the user seated on the wheelchair (102).