A shoe monitoring assembly includes an article of footwear that is wearable on a user's foot. The article of footwear has a storage pocket that is integrated into a tongue of the article of footwear. A tracking unit is positioned within the storage pocket and the tracking unit is in remote communication with a global positioning system for tracking the speed with which the user moves. A temperature sensor is integrated into the article of footwear to sense the temperature of a support surface upon which the user is walking to determine if the temperature of the support surface is safe to walk upon with bare feet. An accelerometer is integrated into the article of footwear thereby to track the number of steps the user takes.

A shoe monitoring assembly includes an article of footwear that is wearable on a user's foot. The article of footwear has a storage pocket that is integrated into a tongue of the article of footwear. A tracking unit is positioned within the storage pocket and the tracking unit is in remote communication with a global positioning system for tracking the speed with which the user moves. A temperature sensor is integrated into the article of footwear to sense the temperature of a support surface upon which the user is walking to determine if the temperature of the support surface is safe to walk upon with bare feet. An accelerometer is integrated into the article of footwear thereby to track the number of steps the user takes.

A system includes one or more sensors to detect activities of a mobile object; and a processor coupled to the sensor and the wireless transceiver to classify sequences of motions into groups of similar postures each represented by a model and to apply the models to identify an activity of the object.

Apparatuses, systems and methods associated with a travel assistance system. A wearable personal navigation device may include a communication system, an indicator, and a processor coupled to the communication system and the indicator. The processor may be configured to generate a request for a navigation path from a location to a destination and transmit the request to a node of the network. The processor may be configured to determine the direction of travel from the location of the user based on a first navigation path received from the node of the network in response to the request, wherein the first navigation path includes at least one modification from a second navigation path, wherein the modification is based on data received by the network from a remote device that indicates an object, and cause the indicator to indicate the direction of travel. Other embodiments may be described and/or claimed.

An article of footwear includes a motorized tensioning system, sensors, and a gesture control system. Based on information received from one or more sensors the gesture control system may detect a prompting gesture and enters an armed mode for receiving further instructions. In the armed mode the system may detect a variety of different control gestures that correspond to different tensioning commands.

A footwear and a method of walking are disclosed. The footwear includes a thermoelectric generator for generating electrical power and an electrical device. The thermoelectric generator generates electrical power via a thermoelectric generator while the footwear is being worn based on a temperature difference across the thermoelectric generator when the footwear is being worn. The electrical power is used to operate the electrical device.

A footwear and a method of walking are disclosed. The footwear includes a thermoelectric generator for generating electrical power and an electrical device. The thermoelectric generator generates electrical power via a thermoelectric generator while the footwear is being worn based on a temperature difference across the thermoelectric generator when the footwear is being worn. The electrical power is used to operate the electrical device.

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.

The present invention relates to a functional shoe configured to generate power when a user wearing the shoe walks, so that a battery there inside can be charged, and to supply the charged electricity to internal and external devices so as to be used for the purpose of user safety and device charging, and enable use of a location tracking function using a GPS device. A self-generating smart shoe according to the present invention comprises: an outsole constituting the lower portion of the shoe while having a plurality of receiving portions formed therein; a self-generation unit which, while being installed at the heel of the outsole, generates power by using a pressure generated when the user wearing the shoe walks and the restoring force due to the pressure; and a battery which, while being installed in the outsole, is charged when the self-generation unit generates power.

The present invention relates to a functional shoe configured to generate power when a user wearing the shoe walks, so that a battery there inside can be charged, and to supply the charged electricity to internal and external devices so as to be used for the purpose of user safety and device charging, and enable use of a location tracking function using a GPS device. A self-generating smart shoe according to the present invention comprises: an outsole constituting the lower portion of the shoe while having a plurality of receiving portions formed therein; a self-generation unit which, while being installed at the heel of the outsole, generates power by using a pressure generated when the user wearing the shoe walks and the restoring force due to the pressure; and a battery which, while being installed in the outsole, is charged when the self-generation unit generates power.