Systems, methods, and non-transitory media are provided for smart sports equipment and integrated platforms. An example method can include receiving, by an integrated platform and from a client device, a request for content associated with a smart ball having a communications device configured to communicate an address for the content to one or more client devices, the request being based on the address from the smart ball; in response to the request, retrieving, by the integrated platform, the content associated with the smart ball; and providing, by the integrated platform, the content to the client device.

This application describes a mobile cycling apparatus which may be easily installed in transportation terminals (and/or other locations) to provide people with an opportunity to exercise. The mobile cycling apparatus described herein may mounted proximate existing seating in the transportation terminals. In some examples, the mobile cycling apparatus may be coupled to the seating, such as a beam seating platform, and/or tables proximate a chair. In some examples, the mobile cycling apparatus may be directly coupled to the floor or other substantially horizontal surface. In some examples, the mobile cycling apparatus may be detachably coupled to a surface (e.g., seating, table, floor, etc.). In such examples, the mobile cycling apparatus may be moved between locations in the transportation terminal.

Systems and methods herein provide for safe and efficient strengthening of core muscles of a user. An example device can include various components for securing a user in a safe position, tilting the body of the user, and rotating the user in a manner that engages the desired muscle groups. The device can include electronically controlled actuators and/or electric motors for performing various motions associated with the user. A control unit can gather information regarding the user and the device to provide helpful information to the user or a caretaker. For example, the control unit can track progress over time, suggest the types and intensities of exercises for individual users, and prepare reports suitable for use in medical or insurance contexts.

A computer-implemented system may include a treatment device configured to be manipulated by a user while the user is performing a treatment plan, a patient interface. and a computing device configured to: receive treatment data pertaining to the user who uses the treatment device to perform the treatment plan; identify at least one enhanced component using the treatment data; generate an enhanced environment using the at least one enhanced component and the treatment plan; output at least one aspect of the enhanced environment to at least one of the patient interface and another interface; receive subsequent treatment data pertaining to the user; and selectively modify at least one of the enhanced environment and at least one of the at least one aspect of the treatment plan and any other aspect of the treatment plan using the subsequent treatment data.

A method includes receiving electronic content via a network, the electronic content comprising an exercise class, and receiving user data associated with a user participating in the exercise class using an exercise machine. The method also includes generating an executable control for a user interface based at least in part on the user data, and providing the executable control, via a display of the exercise machine, while the user is participating in the exercise class. In such a method, the executable control is operable to modify a parameter of the exercise machine while the user is participating in the exercise class.

Described herein are various embodiments of differential air pressure systems and components for differential air pressure systems. The air pressure systems comprise a chamber for receiving at least a portion of a user's body. Pressure in the chamber can be changed to adjust force on the user's body. Described herein are various methods and related structures for sealing a user into a pressurizable chamber. Also described herein are various methods and related structures for changing the shape and/or height of the chamber. Described herein are various types and configurations of chambers and support structures for chambers. Also described herein are various methods and related systems for treating various conditions using the differential air pressure systems, including but not limited to obesity, cardiac disease, multiple sclerosis, cerebral palsy, or Down Syndrome.

A basketball training apparatus includes a shot completion sensor, a condition sensor, and a computer. The shot completion sensor determines whether a shot goes through a basketball hoop. The condition sensor senses a physical condition of a basketball shooter. The computer is in communication with the shot completion sensor and the condition sensor, and has a processor for calculating shot completion percentage as a function of the physical condition.

A system, method, and wireless earpieces for implementing a virtual assistant. A request is received from a user to be implemented by wireless earpieces. A virtual assistant is executed on the wireless earpieces. An action is implemented to fulfill the request utilizing the virtual assistant. The wireless earpieces may be a set of wireless earpieces and the virtual assistant may be implemented independently by the wireless earpieces.

Systems and methods herein provide for safe and efficient strengthening of core muscles of a user. An example device can include various components for securing a user in a safe position, tilting the body of the user, and rotating the user in a manner that engages the desired muscle groups. The device can include electronically controlled actuators and/or electric motors for performing various motions associated with the user. A control unit can gather information regarding the user and the device to provide helpful information to the user or a caretaker. For example, the control unit can track progress over time, suggest the types and intensities of exercises for individual users, and prepare reports suitable for use in medical or insurance contexts.

In one embodiment, a computer-implemented system includes a treatment apparatus configured to be manipulated by a user while performing an exercise session, patient interfaces associated with users, and a server computing device configured to receive treatment data pertaining to the user, determine whether at least one characteristic of the user matches at least one second characteristic of a second user, where the second user belonging to a cohort. Responsive to determining the at least one characteristic of the user matches the at least one second characteristic of the second user, the server computing device is configured to assign the user to the cohort and select, via a trained machine learning model, a treatment plan for the user. Responsive to transmitting a signal to the patient interfaces of users in the cohort, the server computing device enables the patient interfaces to establish the virtual shared session between the patient interfaces.