A wearable system, such as a footwear system, can employ a generator. The generator can be an electro-mechanical generator with a portion that spins to create an electricity. The portion that spins can be spun in such a manner that it does not stop, but instead a next spin beings before a previous spin completes. This can repeat until the generator reaches a terminal velocity.

A portable shoe cover apparatus. The portable shoe cover apparatus includes a shoe cover portion and a shoe cover connection portion. The shoe cover portion is attachable and removable for covering a top portion of a shoe but not covering a bottom portion of a sole of the shoe. The shoe cover portion comprises a waterproof or water resistant portion. The shoe cover connection portion is connected to a top end of the shoe cover portion and is attachable and removable to a portion of a person wearing the shoe and comprises an insect repellant portion. The shoe cover apparatus is attachable and removable to the shoe via plural different types of attachment means.

A foot presence sensor system for an active article of footwear can include a sensor housing configured to be disposed at or in an insole of the article, and a controller circuit, disposed within the sensor housing, configured to trigger one or more automated functions of the footwear based on a foot presence indication. In an example, the sensor system includes a capacitive sensor configured to sense changes in a capacitance signal in response to proximity of a body. A dielectric member can be provided between the capacitive sensor and the body to enhance an output signal from the sensor.

The invention relates to a weighting device for footwear, applicable in footwear suitable for practicing sports and/or for rehabilitation therapy, said device comprising a plate (1) of weighted material, preferably quadrangular and with a curved or angular configuration suitable for applying to the area of the instep of the footwear, a receptacle suitable for containing said plate (1), and means for attaching the device to the footwear to be weighted.

A fitness set for the practice of fitness, sport, rehabilitation or physiotherapy exercises may include at least one weight, at least one shoe support for fastening the weight to a shoe of a user, and at least one body support for fastening the weight to the body of a user, the weight having a first releasable binding element and the shoe support and the body support having at least one second releasable binding element matching the first releasable binding element of the weight, configured so that that the weight may be releasably attached to the shoe support or to the body support. Methods for fitness training are also provided.

A cycling shoe for measuring power includes a sole having a pocket in the bottom of the sole. A sensor platform having a plurality of sensors, at least one sensor on a top of the sensor platform and at least one sensor on the bottom of the sensor platform, is inserted into the pocket. A platform cover and a cleat are attached to the sole over the sensors. Force applied to a pedal clipped to the cleat is measured and processed.

Assembly methods related to an automated footwear platform including a lacing engine drive apparatus are discussed. In an example, an assembly method can include operations such as inserting a mid-sole plate, attaching a laced upper portion, and inserting a lacing engine. The inserting a mid-sole plate operation can include inserting the mid-sole plate into a mid-sole of the footwear platform. The attaching a laced upper portion operation can include attaching a laced upper portion to the mid-sole and positioning a lace loop in the mid-sole plate. Finally, the inserting a lacing engine operation can include inserting a lacing engine into a cavity in the mid-sole plate, wherein the lacing engine includes a lace spool exposed along a superior surface to receive the lace loop.

A foot presence sensor system for an active article of footwear can include a sensor housing configured to be disposed at or in an insole of the article, and a controller circuit, disposed within the sensor housing, configured to trigger one or more automated functions of the footwear based on a foot presence indication. In an example, the sensor system includes a capacitive sensor, and the sensor is configured to sense changes in a foot proximity to the sensor in footwear. Information about the sensed proximity can be used to determine a foot velocity characteristic, which in turn can be used to update an automated footwear function, such as an automatic lacing function, or can be used to determine a step count, foot strike force, a rate of travel, or other information about a foot, about an activity, or about the footwear.

An article of footwear that has an upper attached to a sole structure. The sole structure includes a midsole that is positioned between an insole and an outsole. The article of footwear also includes a plate that is removably received within a cavity formed within the midsole. The insole is configured to cover the plate within the cavity. The plate includes a reinforcing member that comprises carbon fiber.

A footwear insole assembly includes individual electrodes situated within an insole configured to activate in response to applied pressure from a user's foot. The insole includes a upper surface wherein a plurality of pockets are formed in the upper surface. A plurality of pressure sensors are located in the insole and are configured to detect a compressive force on the insole. A plurality of electrodes are located within at least one of the plurality of pockets and in communication with the plurality of pressure sensors. A power supply is configured to transmit power to the plurality of electrodes in response to detected pressure from the plurality of pressure sensors.