An article of footwear, motorized lacing system, and method includes a motor, a transmission, operatively coupled to the motor, a power source, operatively coupled to the motor, a lace spool, operatively coupled to the motor via the transmission, configured to spool and unspool the lace based on operation of the motor, a printed circuit board, and a housing. The housing contains the motor, the transmission, the power source, the lace spool and the printed circuit board, the printed circuit board positioned between an interior surface of the housing and at least one of the power source and the motor, wherein the interior surface includes a post that extends through a hole formed in the printed circuit board. A flexing of the interior surface causes force on the housing to be at least partially imparted on the at least one of the power source, the transmission, and the motor.

This disclosure represents a novel article of footwear that has a built-in toe drying system. The footwear is preferably in the form of a sandal having a sole and a strap attached to opposite sides of the sole and fastened to the top of the sole near forefoot region. More specifically, the footwear has a pair of micro fans releasably mounted in openings disposed in the strap. One micro fan is connected to a duct integrated in strap and the other micro fan is connected to a duct positioned along the side of the sole. The airflow generated by the micro fans are directed towards respective connected ducts such that the airflow is expelled through holes to dry moisture and water on foot of a wearer of the footwear. The sole has a plurality of ripples on top surface thereof and the ripples facilitate drainage of water.

This disclosure represents a novel article of footwear that has a built-in toe drying system. The footwear is preferably in the form of a sandal having a sole and a strap attached to opposite sides of the sole and fastened to the top of the sole near forefoot region. More specifically, the footwear has a pair of micro fans releasably mounted in openings disposed in the strap. One micro fan is connected to a duct integrated in strap and the other micro fan is connected to a duct positioned along the side of the sole. The airflow generated by the micro fans are directed towards respective connected ducts such that the airflow is expelled through holes to dry moisture and water on foot of a wearer of the footwear. The sole has a plurality of ripples on top surface thereof and the ripples facilitate drainage of water.

A sole or insole for an orthopedic shoe for persons with hallux valgus. The sole or insole includes a main part located at least under and supporting the Digitis Pedis II to V and the ball of the foot, and an element movably connected to the main part that is located under and supports the Digitis Pedis I. The main part of the sole or insole includes a cavity under the Digitis Pedis II to V and/or the transverse arch of the foot that contains a hydraulic, mechanical, pneumatic, electric or other device that causes rotary movement of the moveable element in the horizontal plane laterally away from the main part during a walking movement, in particular caused by the compressive force caused by the wearer's own weight on the sole or insole.

This disclosure represents a novel article of footwear that has a built-in toe drying system. The footwear is preferably in the form of a sandal having a sole and a strap attached to opposite sides of the sole and fastened to the top of the sole near forefoot region. More specifically, the footwear has a pair of micro fans releasably mounted in openings disposed in the strap. One micro fan is connected to a duct integrated in strap and the other micro fan is connected to a duct positioned along the side of the sole. The airflow generated by the micro fans are directed towards respective connected ducts such that the airflow is expelled through holes to dry moisture and water on foot of a wearer of the footwear. The sole has a plurality of ripples on top surface thereof and the ripples facilitate drainage of water.

This disclosure represents a novel article of footwear that has a built-in toe drying system. The footwear is preferably in the form of a sandal having a sole and a strap attached to opposite sides of the sole and fastened to the top of the sole near forefoot region. More specifically, the footwear has a pair of micro fans releasably mounted in openings disposed in the strap. One micro fan is connected to a duct integrated in strap and the other micro fan is connected to a duct positioned along the side of the sole. The airflow generated by the micro fans are directed towards respective connected ducts such that the airflow is expelled through holes to dry moisture and water on foot of a wearer of the footwear. The sole has a plurality of ripples on top surface thereof and the ripples facilitate drainage of water.

Systems and methods for sports analytics are disclosed. A system for evaluating athletic performance can include wearable sensor devices configured to be removably coupled to an athlete's body during athletic performance, and one or more equipment-mountable sensor devices configured to be coupled to reference objects adjacent to an athletic performance site such as a goal or equipment. A computing device can be communicatively coupled to the wearable sensor device(s) and the equipment-mountable sensor device(s). The computing device is configured to receive sensor data from each of the sensor device(s) and to determine at least one performance parameter.

A sole or insole for an orthopedic shoe for persons with hallux valgus. The sole or insole includes a main part located at least under and supporting the Digitis Pedis II to V and the ball of the foot, and an element movably connected to the main part that is located under and supports the Digitis Pedis I. The main part of the sole or insole includes a cavity under the Digitis Pedis II to V and/or the transverse arch of the foot that contains a hydraulic, mechanical, pneumatic, electric or other device that causes rotary movement of the moveable element in the horizontal plane laterally away from the main part during a walking movement, in particular caused by the compressive force caused by the wearer's own weight on the sole or insole.

A display system for an article of footwear includes a display device with an optoelectronic display, a control module that is configured to communicate with the display device, and a power source. The display device is configured to be removably received within a receptacle formed in the article of footwear such that the optoelectronic display is visible from an outside of the article of footwear when the display device is received within the receptacle.

A display system for an article of footwear includes a display device with an optoelectronic display, a control module that is configured to communicate with the display device, and a power source. The display device is configured to be removably received within a receptacle formed in the article of footwear such that the optoelectronic display is visible from an outside of the article of footwear when the display device is received within the receptacle.