A snow ski assembly is provided for use by an individual to slide across a snow covered surface, for example, under the force of gravity. The assembly includes a ski having a bottom wall for engaging a snow covered surface and an upturned peripheral region extending around a perimeter of the bottom wall to help facilitate sliding movement of the ski across a snow covered surface in any direction, without preference to a particular direction, and to help inhibit the ski from digging into the snow covered surface when sliding across the snow covered surface. The assembly also includes a mounting feature for coupling a binding to the bottom wall of the ski, such that an individual can position a foot in the binding and use the ski to slide across the snow covered surface.

There is provided a sliding apparatus having low frictional resistance with a snow surface or an ice surface and excellent sliding properties. A sliding apparatus for sliding on a sliding object (snow surface or ice surface) has a sliding surface (1) contacting the sliding object. The sliding surface (1) is divided into a plurality of regions (1A, 1B, 1C) different in the surface arithmetic mean roughness Ra, and the plurality of regions (1A, 1B, 1C) is arranged in order along the longitudinal direction. Among the plurality of regions (1A, 1B, 1C), the surface arithmetic mean roughness Ra of a front region (1A) which is a region first contacting the sliding object in sliding is smaller than the surface arithmetic mean roughness Ra of the rear region (1B) positioned rearward in the sliding direction with respect to the front region (1A).

There is provided a sliding apparatus having low frictional resistance with a snow surface or an ice surface and excellent sliding properties. A sliding apparatus for sliding on a sliding object (snow surface or ice surface) has a sliding surface (1) contacting the sliding object. The sliding surface (1) is divided into a plurality of regions (1A, 1B, 1C) different in the surface arithmetic mean roughness Ra, and the plurality of regions (1A, 1B, 1C) is arranged in order along the longitudinal direction. Among the plurality of regions (1A, 1B, 1C), the surface arithmetic mean roughness Ra of a front region (1A) which is a region first contacting the sliding object in sliding is smaller than the surface arithmetic mean roughness Ra of the rear region (1B) positioned rearward in the sliding direction with respect to the front region (1A).

At least one embodiment of the inventive technology relates to a snowboard having three cambers, a first of which may be disposed immediately inboard of a first tip section, a second of which may be disposed immediately inboard of a second tip section, and a third of which may be centrally disposed between tip section termina of the snowboard, and between said first and second cambers. The third camber may be part of a centrally disposed rocker.

At least one embodiment of the inventive technology relates to a snowboard having three cambers, a first of which may be disposed immediately inboard of a first tip section, a second of which may be disposed immediately inboard of a second tip section, and a third of which may be centrally disposed between tip section termina of the snowboard, and between said first and second cambers. The third camber may be part of a centrally disposed rocker.

A snow ski assembly is provided for use by an individual to slide across a snow covered surface, for example, under the force of gravity. The assembly includes a ski having a bottom wall for engaging a snow covered surface and an upturned peripheral region extending around a perimeter of the bottom wall to help facilitate sliding movement of the ski across a snow covered surface in any direction, without preference to a particular direction, and to help inhibit the ski from digging into the snow covered surface when sliding across the snow covered surface. The assembly also includes a mounting feature for coupling a binding to the bottom wall of the ski, such that an individual can position a foot in the binding and use the ski to slide across the snow covered surface.

A ski for use on ice or snow is disclosed. The ski includes a ski body having a tip portion, a tail portion, and a longitudinal running length extending between the tip portion and the tail portion and a substantially flat bottom surface for sliding on snow or ice. The ski also includes a suspension system comprised of a substantially rigid support structure secured to the longitudinally central region of the said ski body at two attachment locations separated by a distance of at least 5 inches along the longitudinal axis of the ski body, and at least one resilient element configured to exert an opposing force between the support structure and the ski body in the area between the two attachment locations.

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.

An active suspension orthotic support system is disclosed. The suspension orthotic support system comprises at least one variable resistance beam extending from a heel section to a mid-arch section of the footwear, wherein rotation of the variable resistance beam from a first position to a second position causes a resistance provided by the variable resistance beam to vary between a minimum resistance to a maximum resistance.