The invention relates to a method (500) for calculating personalized parameter values of a new custom sole for the design of custom soles, said method comprising: a step of loading (530) posture or mobility parameter values (101) of a user; a step of loading (540) shoe parameter values (201); a step of calculating (550) one or more personalized parameter values of a new custom sole (301).

The present disclosure is related to three-dimensionally printed articles for use in footwear and associated systems and methods. In some embodiments, a three-dimensionally printed article may comprise a closed-cell foam. The closed-cell foam may have a gradient in and/or may be a single integrated material. In some embodiments, a three-dimensionally printed article may comprise a sensor. The use of such arrangements can, according to certain embodiments, allow for the production of improved articles of footwear and/or customized articles of footwear.

The present disclosure is related to three-dimensionally printed articles for use in footwear and associated systems and methods. In some embodiments, a three-dimensionally printed article may comprise a closed-cell foam. The closed-cell foam may have a gradient in and/or may be a single integrated material. In some embodiments, a three-dimensionally printed article may comprise a sensor. The use of such arrangements can, according to certain embodiments, allow for the production of improved articles of footwear and/or customized articles of footwear.

A bicycle cleat positioning device includes a shoe holder, a cleat holder, and an attachment portion. A bicycle shoe is mounted to the shoe holder. The cleat holder is adjustably arranged relative to the shoe holder. The attachment portion supports the cleat holder relative to the shoe holder. The cleat holder is detachably and rotatable mounted to the attachment portion.

A bicycle cleat positioning device includes a shoe holder, a cleat holder, and an attachment portion. A bicycle shoe is mounted to the shoe holder. The cleat holder is adjustably arranged relative to the shoe holder. The attachment portion supports the cleat holder relative to the shoe holder. The cleat holder is detachably and rotatable mounted to the attachment portion.

A wearable article, a system, and methods include a structural material configured to enable the wearable article to the worn on a body, a piezoelectric generator, positioned with respect to the structural material in a configuration to be flexed to output a voltage, a data translator, coupled to the piezoelectric generator, configured to output electronic data based on the voltage, and an electronic data storage, coupled to the data translator, configured to store the electronic data from the data translator.

A wearable article, a system, and methods include a structural material configured to enable the wearable article to the worn on a body, a piezoelectric generator, positioned with respect to the structural material in a configuration to be flexed to output a voltage, a data translator, coupled to the piezoelectric generator, configured to output electronic data based on the voltage, and an electronic data storage, coupled to the data translator, configured to store the electronic data from the data translator.

A method for automated manufacturing of shoe soles comprises the steps of: loading a transfer device with at least one outsole element and at least one supporting element, positioning the loaded transfer device adjacent a first part and a second part of a sole mold, transferring the at least one outsole element from the transfer device to the first part and transferring the at least one supporting element from the transfer device to the second part of the sole mold, filling the sole mold with a plurality of individual particles, and applying a medium to bond and/or fuse the particles with each other and with the at least one outsole element.

An article of footwear includes a midsole, an upper disposed above the midsole, and an outsole disposed below the midsole. The midsole includes a unitary lattice structure having an upper side and a lower side, wherein the upper side is a user-facing side and the lower side is a ground-facing side. The midsole further includes an upper rim integrally formed with the unitary lattice structure. The upper rim extends around an upper perimeter defined on the upper side of the lattice structure.

An article of footwear includes a midsole, an upper disposed above the midsole, and an outsole disposed below the midsole. The midsole includes a unitary lattice structure having an upper side and a lower side, wherein the upper side is a user-facing side and the lower side is a ground-facing side. The midsole further includes an upper rim integrally formed with the unitary lattice structure. The upper rim extends around an upper perimeter defined on the upper side of the lattice structure.