Presented are intelligent electronic footwear and apparel with controller-automated features, methods for making/operating such footwear and apparel, and control systems for executing automated features of such footwear and apparel. A method for operating an intelligent electronic shoe (IES) includes receiving, e.g., via a controller through a wireless communications device from a GPS satellite service, location data of a user. The controller also receives, e.g., from a backend server-class computer or other remote computing node, location data for a target object or site, such as a virtual shoe hidden at a virtual spot. The controller retrieves or predicts path plan data including a derived route for traversing from the user's location to the target's location within a geographic area. The controller then transmits command signals to a navigation alert system mounted to the IES's shoe structure to output visual, audio, and/or tactile cues that guide the user along the derived route.

Soles for articles of footwear including a mechanically anisotropic three-dimensional mesh. The mechanically anisotropic three-dimensional mesh can include one or more mechanically anisotropic regions with a first lattice shear modulus measured in a first direction and a second lattice shear modulus measured in a second direction opposite to or orthogonal to the first direction. The first and second lattice shear moduli are different to provide the three-dimensional mesh with mechanically anisotropic properties. The mechanically anisotropic three-dimensional mesh can be three-dimensionally printed.

A monitoring system a user activity sensor to determine patterns of activity based upon the user activity occurring over time.

Sports equipment and/or areas of play are provided, comprising a sports equipment or area of play and a sensor.

A system for analysis of user gait and to provide correction in form of haptic and visual feedback. This system comprises a motion and force sensors and a haptic actuator embedded in the user shoe insoles in communication with a smart-phone based analysis application, configured to calculate motion and orientation of the user feet in relation to the value, location and distribution of ground reaction forces measured by sensors located in the shoe insoles and after analysis of said forces and motion, to provide haptic feedback to the user foot instructing about the location (and timing) of pressure the user must apply to achieve an optimal gait.

An intelligent shoe comprises one or more sensorial devices configured to generate sensorial signals to instruct a wearer to walk along a pedestrian path. The intelligent shoe is configured to cause a current location of the wearer to be determined and to obtain a pedestrian path between the current location and the destination location. The intelligent shoe then causes the one or more sensorial devices to generate sensorial signals, instructing the wearer to move along the pedestrian path.

An article of apparel providing dynamic support for an appendage of a person is discussed herein. The article of apparel can include a support garment control device configured to provide dynamic support. The support garment control device can include a control lace coupled to a support portion of the article of apparel. In an example, the support garment control device configured to apply a first tension on the control lace, lock the support garment control device at the first tension to inhibit movement of the control lace in response to detecting a change in movement of the person, and unlock the support garment control device after a pre-determined event subsequent to the change in movement of the person.

Presented are intelligent electronic footwear and apparel with controller-automated features, methods for making/operating such footwear and apparel, and control systems for executing automated features of such footwear and apparel. A method for operating an intelligent electronic shoe (IES) includes receiving, e.g., via a controller through a wireless communications device from a GPS satellite service, location data of a user. The controller also receives, e.g., from a backend server-class computer or other remote computing node, location data for a target object or site, such as a virtual shoe hidden at a virtual spot. The controller retrieves or predicts path plan data including a derived route for traversing from the user's location to the target's location within a geographic area. The controller then transmits command signals to a navigation alert system mounted to the IES's shoe structure to output visual, audio, and/or tactile cues that guide the user along the derived route.

Disclosed aspects pertain to surface analysis based on wearable sensor data. Sensor data can be acquired from pressure-sensitive wearable sensors, such as shoe insole sensors, based on interaction with a surface. A location can also be determined for the sensor data with respect to a surface utilizing a positioning system. The sensor data can be utilized to determine surface properties at a particular location. Further, a graphical representation of the surface properties and location can be generated and conveyed for display on a display. Furthermore, movement instructions can be provided to aid in analysis of an entire surface, and recommendations can be made regarding surface maintenance based on collected sensor data.

Disclosed aspects pertain to surface analysis based on wearable sensor data. Sensor data can be acquired from pressure-sensitive wearable sensors, such as shoe insole sensors, based on interaction with a surface. A location can also be determined for the sensor data with respect to a surface utilizing a positioning system. The sensor data can be utilized to determine surface properties at a particular location. Further, a graphical representation of the surface properties and location can be generated and conveyed for display on a display. Furthermore, movement instructions can be provided to aid in analysis of an entire surface, and recommendations can be made regarding surface maintenance based on collected sensor data.