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 footwear system includes a sensorized insole, a wireless charging transmitter pod, and a wireless charging mat. The insole has an insole bulk having a foot-facing upper surface and a ground-facing lower surface. One or more sensors, one or more batteries, and a wireless charging receiver pod are embedded in the insole bulk. The transmitter pod receives energy and wirelessly transmits energy to the receiver pod. The transmitter pod is positionable against the foot-facing upper surface to wirelessly provide energy to the receiver pod through the insole bulk. The mat receives energy and wirelessly transmits energy to the receiver pod. The mat is positionable adjacent the ground-facing lower surface to wirelessly provide energy to the receiver pod through the first insole bulk. The system is configured to allow only one of the transmitter pod and the mat to provide energy to the receiver pod at a given time.

A footwear system includes a sensorized insole, a wireless charging transmitter pod, and a wireless charging mat. The insole has an insole bulk having a foot-facing upper surface and a ground-facing lower surface. One or more sensors, one or more batteries, and a wireless charging receiver pod are embedded in the insole bulk. The transmitter pod receives energy and wirelessly transmits energy to the receiver pod. The transmitter pod is positionable against the foot-facing upper surface to wirelessly provide energy to the receiver pod through the insole bulk. The mat receives energy and wirelessly transmits energy to the receiver pod. The mat is positionable adjacent the ground-facing lower surface to wirelessly provide energy to the receiver pod through the first insole bulk. The system is configured to allow only one of the transmitter pod and the mat to provide energy to the receiver pod at a given time.

A shoe with an integrated electronic touchscreen display is provided. The shoe includes a flexible electronic display material having an embedded touch screen, which is operably connected to a rechargeable battery. In one embodiment, the rechargeable battery is secured within a heel of the shoe. In another embodiment, the rechargeable battery is disposed on a detachable outsole having the ability to generate power via static electricity generated by walking to recharge the rechargeable battery. The embedded touch screen may alter the colors or other qualities of the flexible electronic display. In this way, the wearer can customize the outward appearance of their shoes. Some embodiments include a ventilation system for cooling.

An immobility system for a free-fall environment includes an immobility device including at least one suction cup configured to engage the immobility device to a surface, and a valve that, when activated, results in release of the at least one suction cup from engagement with the surface. A remote controller is spaced apart from the valve and is configured to selectably transmit an activation signal to the valve. An immobility device includes at least one suction cup configured to engage the immobility device to a surface, and a valve that, when activated, results in release of the at least one suction cup from engagement with the surface. A receiver at the device is configured to receive an activation signal and activate the valve.

A wearable article, a system, and methods include a structural material configured to enable the wearable article to the worn on a body, a piezoelectric generator, positioned with respect to the structural material in a configuration to be flexed to output a voltage, a data translator, coupled to the piezoelectric generator, configured to output electronic data based on the voltage, and an electronic data storage, coupled to the data translator, configured to store the electronic data from the data translator.

The present invention relates to footwear with flexible display means, comprising: a) at least one strap that is comprised of a flexible thin display panel, b) a sole comprising attachment latches adapted to attach the at least one strap to the sole; and an electrical circuitry configured to enable the flexible thin display panel to display digital content.

The present invention relates to footwear with flexible display means, comprising: a) at least one strap that is comprised of a flexible thin display panel, b) a sole comprising attachment latches adapted to attach the at least one strap to the sole; and an electrical circuitry configured to enable the flexible thin display panel to display digital content.

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.

To provide an insole-type electronic device that can be used in a location distant from a control unit and has small power consumption, the insole-type electronic device includes a first insole including a first sensor and a second insole including a second sensor. The first sensor acquires first sensor data relating to a biological activity of a first foot and the second sensor acquires second sensor data relating to a biological activity of a second foot. The first insole includes a first-sensor-data transmitter transmitting the first sensor to the second insole. The second insole includes a first-sensor-data receiver receiving the first sensor data, and a data processor processing the first sensor data and the second sensor data.