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.

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.

An article of apparel, a system, and methods include a structural material configured to enable the article of footwear to the worn on a body. A wireless transmission circuit is included and a piezo-electric generator is positioned with respect to the structural material in a configuration to be flexed to induce a voltage signal output. A voltage sensor is configured to sense the voltage profile and output a sensor signal indicative of the voltage profile. An electronic data storage, coupled to the voltage sensor, is configured to store voltage profile information based on the sensor data. A comparator, coupled to the electronic data storage, is configured to identify a change in the voltage profile information overtime. The wireless transmission circuit is configured to transmit data indicative of a physical status of the article of footwear based on the change in the voltage profile information over time.

An article of apparel, a system, and methods include a structural material configured to enable the article of footwear to the worn on a body. A wireless transmission circuit is included and a piezoelectric generator is positioned with respect to the structural material in a configuration to be flexed to induce a voltage signal output. A voltage sensor is configured to sense the voltage profile and output a sensor signal indicative of the voltage profile. An electronic data storage, coupled to the voltage sensor, is configured to store voltage profile information based on the sensor data. A comparator, coupled to the electronic data storage, is configured to identify a change in the voltage profile information over time. The wireless transmission circuit is configured to transmit data indicative of a physical status of the article of footwear based on the change in the voltage profile information over time.

A monitoring system includes one or more wireless nodes forming a wireless mesh network; a user activity sensor including a wireless mesh transceiver adapted to communicate with the one or more wireless nodes using the wireless mesh network; and a digital monitoring agent coupled to the wireless transceiver through the wireless mesh network to request assistance from a third party based on the user activity sensor.

A footwear cooling system includes a main airflow tube and first and second secondary air flow tubes positioned in respective air inlets in the front of a shoe. The first and second secondary air flow tubes join the main air flow tube at respective acute angles at a junction positioned a selected distance behind the main air inlet. The portion of the main airflow tube in front of the junction and the first and second secondary air flow tubes each have a plurality of air ducts formed on their side surfaces. The main air flow tube is connected to a fan which pulls air in from the main and secondary air inlets and exhausts air out of the rear of the shoe.

A footwear cooling system includes a main airflow tube and first and second secondary air flow tubes positioned in respective air inlets in the front of a shoe. The first and second secondary air flow tubes join the main air flow tube at respective acute angles at a junction positioned a selected distance behind the main air inlet. The portion of the main airflow tube in front of the junction and the first and second secondary air flow tubes each have a plurality of air ducts formed on their side surfaces. The main air flow tube is connected to a fan which pulls air in from the main and secondary air inlets and exhausts air out of the rear of the shoe.

Provided is an insole that can check the operation of a sensor and accurately and quickly connect with a user terminal, the user terminal and a pairing method thereof. The method for pairing an insole comprises scanning an insole, in which at least one pressure sensor and tactile element are installed, providing a vibration command to the scanned insole to vibrate a tactile element of the scanned insole, and pairing the insole including the vibrating tactile element and a user terminal.

Provided is an insole that can check the operation of a sensor and accurately and quickly connect with a user terminal, the user terminal and a pairing method thereof. The method for pairing an insole comprises scanning an insole, in which at least one pressure sensor and tactile element are installed, providing a vibration command to the scanned insole to vibrate a tactile element of the scanned insole, and pairing the insole including the vibrating tactile element and a user terminal.