A system for monitoring performance of a user includes at least one processor, and at least one memory including a computer program code. The at least one memory and the computer program code are configured, with the at least one processor, to cause the system to perform operations including obtaining force data measured by at least one force sensor coupled with one or more poles and velocity data measured by at least one sensor for measuring velocity of the user, determining poling power based on the force data and the velocity data, and outputting a poling power indicator based on the determined poling power.

The present invention relates to an enigma system comprising wearable universal control (WUC), a hearable, and an electronic device associated with a data source. The WUC is activated using hand/finger movements and/or voice commands that signal the electronic device to select an item in the user's environment and perform predefined information searches in the database and transfer such information to said hearable. The WUC is configured to control any number of devices selected by a user without the need for hardware or software changes. The enigma system can monitor the user's environment and automatically provide selectable information about the user's environment allowing a user to better decoded his environment as well as provide warnings.

A footwear assembly for use in a virtual reality environment comprising a front platform portion having an upper surface adapted and configured for supporting and releasably retaining the forward part of a user's foot and a rear platform portion having an upper surface adapted and configured for supporting and releasably retaining a rear part of the user's foot, the front and rear platform portions being joined by a transverse hinge so that the platform portions can pivot relative to one another to accommodate flexing of the user's foot, each platform portion having mounted under a lower surface thereof at least one drive motor, each drive motor driving a continuous belt, and two continuous belts on each platform portion being arranged substantially in parallel, one located to each side of the platform portion, the drive motor or motors and continuous belts of the front platform portion being mounted to a front drive module and the drive motor or motors and continuous belts of the rear platform portion mounted to a rear drive module, the drive modules being mounted beneath their respective platform portions so each drive module may rotate in the horizontal plane relative to the platform portion it is mounted beneath.

Various powered wheeled board vehicles are disclosed. In some embodiments, the vehicle includes a deck having a forward portion and a rearward portion. At least one front wheel can be connected with the deck under the forward portion. The front wheel can be configured to swivel about a first axis and rotate about a second axis. A powered wheel can be connected with the rearward portion. In some configurations, the rear wheel comprises a hub motor.

A skateboard riser is described. The skateboard riser housing and a camera assembly disposed in the housing. A skateboard is also described. The skateboard includes a skateboard deck, a truck, and a riser coupled between the skateboard deck and the truck. The riser includes a camera assembly and a digital video recorder.

A system for determining a position of one or more pieces of athletic equipment on an athletic playing surface is provided. The system includes one or more pieces of athletic equipment each including therein an RFID chip, the RFID chip comprising an electronic circuit configured to produce and transmit an RF signal. The system also includes an array of sensors positioned on or in proximity to the athletic playing surface and configured to receive RF signals from the RFID chip of each of the one or more pieces of athletic equipment. The system also includes a processing system operably connected to the array of sensors to receive data from the array of sensors, the processing system programmed to process the data from the array of sensors to determine a position of each of the one or more pieces of athletic equipment on the athletic playing surface.

Skateboard having a board with a first platform and a second platform, fastenings fixed to the board, wheels rotatably mounted in the fastenings in order to move the board, a first frame-fixed to the first platform and a second frame fixed to the second platform, and connection means rotatably connecting the first frame to the second frame in such manner that the skateboard can be in an open position, in which the first platform and the second platform are aligned and coplanar, and in a closed position, in which the first platform and the second platform are parallel and disposed on different planes.

In an aspect, a powered foot-deck-based vehicle is provided, and includes a foot-deck to support a rider. At least one wheel is rotatably coupled to the foot-deck to enable travel of the foot-deck over a travel surface. At least one motor is coupled to at least one of the at least one wheel to drive rotation thereof. A power source is coupled to the at least one motor to power the at least one motor. A remote sensor unit is wearable by the rider and configured to detect at least one of an orientation, a position, and movement of the rider and transmit sensor data generated therefrom. A motor control unit is coupled to the at least one motor and is configured to receive the sensor data and control the operation of the at least one motor based at least in part on the sensor data.

The present invention is a personal mobility device having multiple modes of operation, including a deck, and a first and second wheel assembly, and at least one battery powered electric motor, and actuation means. The deck includes an elongate substantially flat body, and each wheel assembly is attached to the deck in the vicinity of a respective end of the elongate body. The respective axle of each wheel assembly is located upon the plane of the deck. The at least one battery powered electric motor is adapted to be actuated via the actuation means when a user steps onto the deck, and adapted to drive the first and second wheel assemblies, and wherein in the first mode of operation, both the first and second wheel assemblies are adapted to roll in a circumferential direction, predominately under the influence of the at least one electric motor, so that the device moves in an orthogonal direction to the longitudinal axis of the deck, and wherein in a second mode of operation, both the first and second wheel assemblies are also adapted to optionally free-roll in an orthogonal direction to the plane of the wheel assembly, thereby allowing the device to move substantially in the direction of the longitudinal axis of the deck. There is a transitional mode of operation, where the device is capable of continuously and smoothly transitioning between the first and second mode of operation, while the device is being ridden.

A system, method and apparatus for a digitally Controlled Variable Stiffness item of athletic equipment, such as a Ski, Snowboard, and Boots. A core of thermally responsive metal alloy, such as Nitinol is disposed within the athletic equipment. A thermal control module and controller permit the athlete to program the athletic equipment to a desired stiffness parameter. The controller may include an app operable via a mobile computing device in communication with the thermal control module.