An article of footwear has a sole structure with interconnected compliant components. The sole structure includes a sole plate, inner sole structure and lasting board. The inner sole structure is placed in between the sole plate and lasting board. The inner sole structure provides compliant components that protrude through the sole plate towards a ground surface. The compliant components are interconnected by channels.

An article of footwear may include an outer member that has a first ground engaging member extending downward from the outer surface of an outer member. Ground engaging members, or cleats, may be auxetic structures that can increase their dimensions in a direction that is orthogonal to the direction of applied force or tension. Ground engaging member shapes may include various polygonal features. The first ground engaging member may have a three-pointed star-shaped pyramidal structure. The outer member may have an inner surface with apertures that correspond with the ground engaging members of the outer surface.

A sole for an article of footwear includes a base having an outer edge defining a perimeter, the base having a forefoot portion, a midfoot portion and a heel portion; and a plurality of resilient projections extending from the base, wherein the plurality of projections includes a plurality of projections extending non-orthogonally from the base about the perimeter of the base and a plurality of projections extending substantially orthogonally from the base within the non-orthogonal projections.

A sole structure for an article of footwear comprises a first sole plate that includes a forefoot region, a foot-receiving surface, and a lower surface opposite the foot-receiving surface. The first sole plate has a plurality of slots including a first slot, and a second slot rearward of the first slot. The plurality of slots is disposed in the forefoot region and extends generally transversely and entirely through the first sole plate from the foot-receiving surface to the lower surface. The sole structure includes at least one rib, referred to as a first rib, disposed between the first slot and the second slot. The sole structure also includes a second sole plate secured to the lower surface of the first sole plate both forward of the plurality of slots and rearward of the plurality of slots. The second sole plate is detached from the first rib.

A shoe with a superior wearing sensation is equipped with an anti-slip structure to forward comfort and safety in a watery place. The shoe includes an upper that covers an instep from above, an insole part that connects to the lower part of the upper and an outsole part which is integrated by adhesion with the insole part and the upper and which is supported by an outsole surface, wherein the outsole part is equipped with an anti-slip structure in which a plurality of suction parts are arranged while a suction part includes a cup that tightly contacts along the cup rim to the ground surface to provide, by being compressed, suction force and a protuberance that protrudes downward from the center of the cup.

An exercise apparatus includes a pair of step-up apparatuses wearable on feet of a user. Each step-up apparatus is configurable between an expanded configuration and a compressed configuration to simulate a selected motion when the user wearing the pair of step-up apparatuses travels by foot. One of the step-up apparatuses moves towards the expanded configuration while the other step-up apparatus moves towards the compressed configuration.

Baseplates for shoes, wherein the baseplate is removably insertable into a shoe upper, and wherein the baseplate includes a substantially planar body, which is configured to provide stability to the shoe upper, and a plurality of tread elements, which are configured to protrude through a respective opening of a plurality of openings in a bottom portion of the shoe upper when the baseplate is removably inserted into the shoe upper, wherein the plurality of tread elements are unitarily formed with the body.

Ground-engaging components for articles of footwear include an upper-facing surface and a ground-facing surface opposite the upper-facing surface. At least the ground-facing surface may be formed to include a matrix structure, and this matrix structure may include a plurality of open cells (e.g., in a heel region and/or an arch region) and a forefoot region including a plurality of closed forefoot support cells. The ground-engaging component may be engaged with a midsole member (e.g., including a foam midsole element and/or one or more fluid-filled bladders), and this combination may form a sole structure that is engaged with an upper to form an article of footwear.

A sole for footwear and footwear including the sole wherein the sole includes a first layer having a plurality of orifices passing through and configured to be connected to an upper of a footwear article and to form an inner environment of the footwear, and a second layer coupled to the first layer, having a plurality of chambers and one or more channels or passages fluidly connecting the orifices and chambers. The sole also includes a pressurization device in fluid communication with the channels or passages and is configured to increase the air pressure in the plurality of chambers and regulating valves in fluid communication with the channels or passages to regulate a pressure in the plurality of chambers.

Systems and methods are disclosed for biomechanical analysis of a gait cycle of a user, including a multi-layered structure including a base layer, a mid-layer, and an upper layer, at least one sensor integrated with the orthotic system capable of detecting movement and pressure changes during the gait cycle of the user, and a processing unit in communication with the at least one sensor configured to receive and analyze sensor data, compare the analyzed sensor data against a plurality of foot pathologies, and provide visual feedback for display on a display screen based on the comparison to inform adjustments for optimizing foot alignment and motion, wherein the orthotic system includes one or more adjustment features to provide manual adjustment to the foot during the gait cycle for therapeutic corrections, thereby enhancing mobility and reducing discomfort for the user.