A system and a method of asymmetric shock absorption and torsion cushioning for footwear. The asymmetric shock absorption system providing an upper plate attached to the upper section of the footwear and a lower plate attached to the lower section of the footwear. The upper plate may be in direct contact with or spaced apart from the lower plate. A flexible perimeter band extends around the entire perimeter of the sole of the footwear and permanently connects the upper section to the lower section of the footwear. The flexible perimeter band may have a low-profile and extend around only the perimeter of the upper and lower plates. The flexible perimeter band may wrap around one or more plate to provide for limited horizontal movement, e.g., lateral, longitudinal, or both lateral and longitudinal, between the upper section of the footwear and the lower section of the footwear.

An insole which provides cushioning and support to a user's foot subjected to a high magnitude of ground reaction forces (GRF) encountered in playing court sports, such as basketball, is herein disclosed. The insole comprises a base having a bottom side which defines recesses adapted to receive pads having particular properties. The location and materials of the various pads and pods work together to provide ground reaction force modulation to the user's foot which is highly desirable for users engaged in basketball and similar activities.

An insole which provides cushioning and support to a user's foot subjected to a high magnitude of ground reaction forces (GRF) encountered in playing court sports, such as basketball, is herein disclosed. The insole comprises a base having a bottom side which defines recesses adapted to receive pads having particular properties. The location and materials of the various pads and pods work together to provide ground reaction force modulation to the user's foot which is highly desirable for users engaged in basketball and similar activities.

A safety garment includes at least one sensor unit for detecting at least one user-specific characteristic value and/or at least one environment-specific characteristic value. The safety garment further includes at least one communication unit configured to transmit the detected user-specific characteristic value and/or the detected environment-specific characteristic value to at least one other safety garment in order to communicate with the other safety garment.

A safety garment includes at least one sensor unit for detecting at least one user-specific characteristic value and/or at least one environment-specific characteristic value. The safety garment further includes at least one communication unit configured to transmit the detected user-specific characteristic value and/or the detected environment-specific characteristic value to at least one other safety garment in order to communicate with the other safety garment.

Articles and methods for obtaining measurements for the design and/or manufacture of personalized and/or customized clothing, and/or alteration of existing patterns or clothing, and for measuring and/or monitoring one or more parameters, such as size(s), shape(s) and dimension(s), of one or more aspects of a body of the wearer of the article. The articles include a stretchable material interwoven with sensors and/or conductive fibers. The articles include socks, bodysuits, bras, gloves, hats, and so forth. The personalized and/or custom-fitted clothing includes shirts, suits, pants, shorts, dresses, skirts, bras and other undergarments, sleepwear, socks, shoes, gloves, hats, exercise/active wear, protective wear (e.g., helmet, shoulder pads, body armor, etc.), and so forth. The articles and methods may further be used for health and fitness assessment.

Articles and methods for obtaining measurements for the design and/or manufacture of personalized and/or customized clothing, and/or alteration of existing patterns or clothing, and for measuring and/or monitoring one or more parameters, such as size(s), shape(s) and dimension(s), of one or more aspects of a body of the wearer of the article. The articles include a stretchable material interwoven with sensors and/or conductive fibers. The articles include socks, bodysuits, bras, gloves, hats, and so forth. The personalized and/or custom-fitted clothing includes shirts, suits, pants, shorts, dresses, skirts, bras and other undergarments, sleepwear, socks, shoes, gloves, hats, exercise/active wear, protective wear (e.g., helmet, shoulder pads, body armor, etc.), and so forth. The articles and methods may further be used for health and fitness assessment.

Garments made from a composite, protective fabric are disclosed. The composite fabric has textile layers placed in proximity to metallic mesh layers of woven stainless steel mesh. The metal mesh layers formed from any metal which forms suitable fibers. The textile layers are fabric formed with well-known fabric fibers selected from those including para-aramid fibers, meta-aramid fibers, ultra-high molecular weight polyethylene fibers, polyethylene terephthalate fibers, cellulose fibers, polyamide fibers, a mixture of para-aramid fibers and meta-aramid fibers, and a mixture of para-aramid fibers and carbon fibers. Forming the non-metal textile layers is by any suitable method for interlacing yarns including weaving, knitting, crocheting, knotting, or felting, or combinations thereof. The garments made using the fabric include gloves, bullet proof vests and chain-saw resistant trousers.

Garments made from a composite, protective fabric are disclosed. The composite fabric has textile layers placed in proximity to metallic mesh layers of woven stainless steel mesh. The metal mesh layers formed from any metal which forms suitable fibers. The textile layers are fabric formed with well-known fabric fibers selected from those including para-aramid fibers, meta-aramid fibers, ultra-high molecular weight polyethylene fibers, polyethylene terephthalate fibers, cellulose fibers, polyamide fibers, a mixture of para-aramid fibers and meta-aramid fibers, and a mixture of para-aramid fibers and carbon fibers. Forming the non-metal textile layers is by any suitable method for interlacing yarns including weaving, knitting, crocheting, knotting, or felting, or combinations thereof. The garments made using the fabric include gloves, bullet proof vests and chain-saw resistant trousers.

An improved article of footwear is disclosed herein. The upper of the footwear is disposed on the sole, where the upper is constructed from an inner textile layer, an outer textile layer, and a plurality of compressible segments disposed between the inner and outer textile layers. The upper may further contain numerous portions, or zones. Each zone may differ from the other zones of the upper by the number, shape, size, layout, and material of each compressible segment in that zone. The number, shape, size, layout, and material of the compressible segments in each zone gives each zone a specific degree of flexibility, support, and comfort.