The specification discusses various lacing engine configurations for use in an automated footwear platform. For example, lacing engines with mechanisms to detect lace cable position and/or lace cable tensions are discussed. In an example, the lacing engine can include a housing, a lace spool and a detection mechanism. The lace spool can be at least partially disposed within the housing, and be adapted to collect a portion of the lace cable in response to rotation in a first direction during tightening of the footwear platform. The detection mechanism can detect a state of the lace cable manipulated by the lacing engine.

An article of footwear that produces an audio component for a performance includes a rigid heel assembly that attaches to the article of footwear. The rigid heel assembly has a cavity with an open end. The cavity houses an audio transmission assembly that includes a transmitter. A microphone converts the audio component of the performance into a digital audio signal and is operatively connected to the audio transmission assembly which wirelessly transmits the digital audio signal of the audio of the performance.

A pressure-relieving footwear is an apparatus that supports and comforts a user's foot. The apparatus absorbs shock that traverses through the footwear, limiting the impact against the foot of the user. The apparatus includes a footwear, a cushioning layer, a support layer, and a first shock absorbing pad. The footwear protects user's foot and enhances the outfit of the user. The footwear includes an insole, an outsole, and an elongated heel. The outsole includes a forefoot portion and an aft portion. The cushioning layer absorbs the shock and the support layer cradles the foot. The insole is connected across the outsole. The cushioning layer is connected across the insole, opposite to the outsole. The support layer is connected across the cushioning layer, opposite the insole. The elongated heel is connected adjacent to the outsole. The first shock absorbing pad is integrated into the footwear, adjacent to the forefoot portion.

An insole assembly is provided comprising an insole having an upper surface upon which an underside of a foot may contact and be supported. The insole assembly has at least one protrusion which projects away from the upper surface of the insole. At least one of the protrusions is detachably connected to the insole. The protrusions may be interchanged to customize an insole assembly to provide enhanced cutaneous stimulation of targeted regions of a foot.

An insole assembly is provided comprising an insole having an upper surface upon which an underside of a foot may contact and be supported. The insole assembly has at least one protrusion which projects away from the upper surface of the insole. At least one of the protrusions is detachably connected to the insole. The protrusions may be interchanged to customize an insole assembly to provide enhanced cutaneous stimulation of targeted regions of a foot.

A chamber may include a first barrier portion, a second barrier portion, a peripheral bond, an interior bond, and a fold. The first barrier portion defines a first surface of the chamber. The second barrier portion defines a second surface of the chamber, the first surface being opposite the second surface. The peripheral bond joins the first barrier portion and the second barrier portion to form an interior void within the chamber and seal a fluid within the interior void. The interior bond is spaced inward from the peripheral bond and joins the first barrier portion and the second barrier portion. Additionally, the fold is in the second barrier portion and extends away from the interior bond and through a majority of a thickness of the chamber.

A sole structure includes a heel region, a forefoot region, and a midfoot region disposed between the heel and forefoot regions. The sole structure also includes a first fluid-filled segment disposed within the forefoot region and includes a first portion extending continuously from a medial side of the sole structure to a lateral side of the sole structure. The sole structure also includes a second fluid-filled segment disposed between the heel region and the first fluid-filled segment and includes a first portion extending continuously between the medial side and the lateral side. The sole structure also includes a third fluid-filled segment disposed between the first fluid-filled segment and the second fluid-filled segment and includes a first portion extending along one of the medial side and the lateral side and a second portion extending from the first portion toward the other one of the medial side and the lateral side.

A sole structure for an article of footwear includes a midsole having a medial edge and a lateral edge. The sole structure also include a first lower rib extending from the medial edge to the lateral edge of the midsole. The first lower rib includes a portion spaced from the midsole between the medial edge and the lateral edge. The sole structure further includes a medial flex member disposed between the midsole and the first lower rib near the medial edge and a lateral flex member disposed between the midsole and the first lower rib near the lateral edge. The medial flex member and the lateral flex member are configured to flex the first lower rib relative to the midsole in response to a force of a predetermined magnitude.

A sole structure for an article of footwear includes a midsole having a medial edge and a lateral edge. The sole structure also include a first lower rib extending from the medial edge to the lateral edge of the midsole. The first lower rib includes a portion spaced from the midsole between the medial edge and the lateral edge. The sole structure further includes a medial flex member disposed between the midsole and the first lower rib near the medial edge and a lateral flex member disposed between the midsole and the first lower rib near the lateral edge. The medial flex member and the lateral flex member are configured to flex the first lower rib relative to the midsole in response to a force of a predetermined magnitude.

The disclosure relates to articles of footwear (100) and components thereof, including outsoles (112), which can be used in conditions normally conducive to the accumulation of soil on the outsoles (112). In particular, the disclosure relates to articles of footwear (100) and components thereof including an outsole (112) with a material (116) including a polymeric network formed of a plurality of polymer chains, where the material (116) defines external ground-facing surface or side of the outsole (112). The outsoles (112) can prevent or reduce the accumulation of soil on the footwear (100) during wear on unpaved surfaces such as sporting fields.