A personal self-propelled vehicle for travelling on snow using ski comprises a closed-loop flexible ribbon configured to envelope the ski over its length so as to pass under at least a portion of a sliding surface, two rollers and configured for installation on longitudinally opposite ends of the ski and to interact with the ribbon. The roller is a driving roller and is engaged with a motor comprising a control means and with the ribbon to transfer force for translational movement thereof. The roller is a guiding roller. The ribbon canvas has multiple via openings divided by webs and substantially constitutes a lattice. Dimensions and positions of the openings and parameters of the webs between them are selected so the sliding surface of the ski abuts on snow through the openings during motion of the vehicle, while the webs sink in snow under load of the vehicle bearing the user and provide repulsion from snow packed by the ski, thus assuring the ski sliding in longitudinal direction.

The running surface of a ski with unique individual tractive elements arranged in a pattern that allow for uphill movement by the skier. Individual tractive elements used on the running surface of a ski that have unique features in the surface design that enable more efficient operation for uphill movement by the skier. Individual tractive elements arranged in a pattern on a ski bottom in such a way that allows for minimum resistance to the snow surface in the glide portion of uphill ski movement, and maximum resistance in the grip (or kick) portion of uphill ski movement. Individual tractive elements that can be used uniquely on a ski bottom where a portion of the ski bottom surface is a device that can be removed and reattached. Individual tractive elements on the running surface of a ski bottom that can be arranged in a unique and optimal array to maximize the functions of uphill glide and uphill kick through movement of the skis by the skier. Individual tractive elements that can be incorporated on a climbing skin used in tractive uphill/forward skiing in a unique array configuration. Individual tractive elements in a unique array configuration that can be incorporated with additional tractive materials on a climbing skin used in tractive uphill/forward skiing.

Embodiments relate to a denticle scale array including a plurality of denticle scales arranged in pattern and configured to be incorporated onto a ski base, wherein the plurality of denticle scales includes at least a denticle scale including a glide contact area configured to contact terrain when the ski base is unweighted and moving forward, a kick contact area greater than the glide contact area and configured to contact the terrain when the ski base is weighted and not moving forward, at least a longitudinal profile comprising an S-curve, a curved trailing edge profile, and at least a longitudinal groove running parallel with the forward movement of the ski base.

Systems and methods for attaching with a ski to provide improved traction while climbing snowy grades. Exemplary climbing track assemblies can include an attachment to the bottom of a ski that improves traction for hiking or climbing uphill. Assemblies can also include an under-binding bracket, which is mounted under the toe-piece binding of the ski which allows the device to be securely fastened. Assemblies may further include a shim, provided as a small plate mounted under the heel-piece binding, which operates to keep the binding level.

Systems and methods for attaching with a ski to provide improved traction while climbing snowy grades. Exemplary climbing track assemblies can include an attachment to the bottom of a ski that improves traction for hiking or climbing uphill. Assemblies can also include an under-binding bracket, which is mounted under the toe-piece binding of the ski which allows the device to be securely fastened. Assemblies may further include a shim, provided as a small plate mounted under the heel-piece binding, which operates to keep the binding level.

Systems and methods for attaching with a ski to provide improved traction while climbing snowy grades. Exemplary climbing track assemblies can include an attachment to the bottom of a ski that improves traction for hiking or climbing uphill. Assemblies can also include an under-binding bracket, which is mounted under the toe-piece binding of the ski which allows the device to be securely fastened. Assemblies may further include a shim, provided as a small plate mounted under the heel-piece binding, which operates to keep the binding level.

Systems and methods for attaching with a ski to provide improved traction while climbing snowy grades. Exemplary climbing track assemblies can include an attachment to the bottom of a ski that improves traction for hiking or climbing uphill. Assemblies can also include an under-binding bracket, which is mounted under the toe-piece binding of the ski which allows the device to be securely fastened. Assemblies may further include a shim, provided as a small plate mounted under the heel-piece binding, which operates to keep the binding level.

A nose clip and a tail clip for a splitboard ski assembly may each comprise at least three hooks. The nose clip and the tail clip may be adaptable to various splitboard ski designs. A stretcher for a skin assembly may be configured to interface with the tail clip. The tail clip may comprise at least two elongated apertures defining a rail. The stretcher may be configured to interface with the rail via friction and/or secure a skin assembly to a splitboard ski assembly.

Systems and methods for attaching with a ski to provide improved traction while climbing snowy grades. Exemplary climbing track assemblies can include an attachment to the bottom of a ski that improves traction for hiking or climbing uphill. Assemblies can also include an under-binding bracket, which is mounted under the toe-piece binding of the ski which allows the device to be securely fastened. Assemblies may further include a shim, provided as a small plate mounted under the heel-piece binding, which operates to keep the binding level.

Systems and methods for attaching with a ski to provide improved traction while climbing snowy grades. Exemplary climbing track assemblies can include an attachment to the bottom of a ski that improves traction for hiking or climbing uphill. Assemblies can also include an under-binding bracket, which is mounted under the toe-piece binding of the ski which allows the device to be securely fastened. Assemblies may further include a shim, provided as a small plate mounted under the heel-piece binding, which operates to keep the binding level.