The invention concerns a device for controlling a monoski (1), in particular for snow, by means of the combined simple rotation and simple tilting of a single control member such as a handlebar, simultaneously by lateral inclination and by longitudinal twisting. It therefore combines the necessary mechanical functions of a pair of conventional fixtures with the ease of use of a bicycle, and does not require a specific monoski. It makes it possible to move freely on the snow, controlling with both feet held but not locked, or indeed to use one foot to help push on flat terrain and provide stability. The lever arm provided by the control member is considerably superior to that of a pair of conventional fixtures, greatly improving ease of use and the maximum capacities of the device. Finally, it can be quickly folded for ease of handling and storage.

A component of a sports board may be controlled to configure the sports board. The component may be coupled with at least one layer of the sports board.

A component of a sports board may be controlled to configure the sports board. The component may be coupled with at least one layer of the sports board.

The present invention comprises a fairing apparatus for a snowboard comprising a raised structure that may be positioned adjacent to the user's binding, having a geometry that deflects snow or ice away from the user's bindings and boots. In various exemplary embodiments, the raised structure may comprise two forward extending ridges located near the edges of the snowboard. In various exemplary embodiments, the forward extending ridges may extend laterally beyond the edges of the snowboard and may generate lift as the apparatus moves through snow or ice.

The present invention comprises a fairing apparatus for a snowboard comprising a raised structure that may be positioned adjacent to the user's binding, having a geometry that deflects snow or ice away from the user's bindings and boots. In various exemplary embodiments, the raised structure may comprise two forward extending ridges located near the edges of the snowboard. In various exemplary embodiments, the forward extending ridges may extend laterally beyond the edges of the snowboard and may generate lift as the apparatus moves through snow or ice.

A gliding apparatus for use in snow is provided. The gliding apparatus may include a riding platform, the riding platform having a top surface to support a rider's feet and a bottom surface. The gliding apparatus may also include a snow ski, a first mounting device and a second mounting device, each positioned between the riding platform and the snow ski and each having a top portion and a bottom portion. The bottom portion of the first mounting device is pivotably coupled about a first axis to the snow ski and the bottom portion of the second mounting device is pivotably coupled about a second axis to the snow ski. The top portion of the first mounting device is pivotably coupled to the riding platform about a third axis and the top portion of the second mounting device is pivotably coupled to the riding platform about a fourth axis.

A gliding apparatus for use in snow is provided. The gliding apparatus may include a riding platform, the riding platform having a top surface to support a rider's feet and a bottom surface. The gliding apparatus may also include a snow ski, a first mounting device and a second mounting device, each positioned between the riding platform and the snow ski and each having a top portion and a bottom portion. The bottom portion of the first mounting device is pivotably coupled about a first axis to the snow ski and the bottom portion of the second mounting device is pivotably coupled about a second axis to the snow ski. The top portion of the first mounting device is pivotably coupled to the riding platform about a third axis and the top portion of the second mounting device is pivotably coupled to the riding platform about a fourth axis.

A system for measuring power generated by a skier is disclosed. The power generated by the skier may be calculated based upon each complete revolution of a ski pole or ski movement. To do so, the system may include various sensors that measure a force exerted on a ski pole or ski, the angle of the ski pole or ski, and the velocity of the skier at various time instants within each ski pole or ski revolution. A processing unit may calculate power generated by the skier in the skier's direction of travel using the force exerted in the skier's direction of travel during a complete revolution of ski pole (or ski) movement and the velocity of the skier.

A system for measuring power generated by a skier is disclosed. The power generated by the skier may be calculated based upon each complete revolution of a ski pole or ski movement. To do so, the system may include various sensors that measure a force exerted on a ski pole or ski, the angle of the ski pole or ski, and the velocity of the skier at various time instants within each ski pole or ski revolution. A processing unit may calculate power generated by the skier in the skier's direction of travel using the force exerted in the skier's direction of travel during a complete revolution of ski pole (or ski) movement and the velocity of the skier.

A system for analysis of use of a sliding board comprising at least one piezoelectric element configured to be secured to the sliding board and generate electric energy during deformations of the sliding board; and an electronic processing circuit configured for estimating at least one parameter of use of the sliding board and configured to be connected to the sliding board. The electronic processing circuit is powered by the electric energy generated by the at least one piezoelectric element.