An assembly-type insole of the present invention is a shoe insole arranged on an inner bottom surface of a shoe so as to protect the sole of a wearer's foot, the insole comprising: a heel bottom-support configured to support a bottom part of the heel of the wearer's foot; a heel bottom support plate configured to allow the heel bottom support to be attached thereto; an inner arch support configured to support the inner arch part of the wearer's foot sole; an arch inside-support plate positioned inwardly from the longitudinal center of the arch of the foot sole to allow the inner arch support attached thereto; an outer arch support configured to support the outer arch part of the foot sole; an outer arch support plate positioned outwardly from the longitudinal center of the arch of the foot sole to allow the outer arch support attached thereto; an insole base configured to support the arch of the sole and the sole positioned at the front of the arch; and a support plate engagement member configured to allow the heel bottom support plate, the inner arch support plate, and the outer arch support plate to be engaged thereto.

A system for analysis of user gait and foot disorder intended to minimize risks ulceration and limb amputation associated with the uncontrolled increase of the foot temperature in persons with diabetes. This system comprises a motion, force and temperature sensors and a processing element configured to process motion algorithms, measure ground reaction force (GRF) and changes in foot temperature embedded in the footwear insoles in communication with a smartphone based analysis application using wireless radio interface. The analysis application processes data received from the footwear sensors, compares the results with set of criteria and rules, and if any of the predefined criteria is exceeded, provides alerts to the user and the remote medical supervisor. Additionally, the insoles may be equipped with a haptic actuators configured to determine the level of the user neuropathy by measuring vibration perception threshold (VPT) level.

A system for analysis of user gait and foot disorder intended to minimize risks ulceration and limb amputation associated with the uncontrolled increase of the foot temperature in persons with diabetes. This system comprises a motion, force and temperature sensors and a processing element configured to process motion algorithms, measure ground reaction force (GRF) and changes in foot temperature embedded in the footwear insoles in communication with a smartphone based analysis application using wireless radio interface. The analysis application processes data received from the footwear sensors, compares the results with set of criteria and rules, and if any of the predefined criteria is exceeded, provides alerts to the user and the remote medical supervisor. Additionally, the insoles may be equipped with a haptic actuators configured to determine the level of the user neuropathy by measuring vibration perception threshold (VPT) level.

Systems and methods are disclosed including a tri-layer orthotic system having a heel portion and a forefoot portion to support respective heel and forefoot portions of a foot through at least a portion of a gait cycle. The tri-layer orthotic system can include an upper layer suspended over a mid-layer and a base layer to create a rear spring section, a mid-spring section, and a front spring section. A distal toe portion of the mid-layer can form the forefoot portion of the tri-layer orthotic system and a heel upper layer portion of the upper layer can form the heel portion of tri-layer orthotic system.

A computing system configured to perform operations that identify user movement(s) as upper-body exercise(s). The operations can include obtaining sensor data generated by one or more sensors of a footwear device worn by a user, the one or more sensors positioned in one or more positions of the footwear device, the sensor data associated with one or more movements performed by the user. The sensor data can be input into a machine-learned exercise identification model. Exercise identification data can be received as an output of the machine-learned exercise identification model. The exercise identification data can identify the one or more movements performed by the user as one or more upper-body exercises performed by the user, the exercise identification data comprising one or more exercise characteristics associated with each upper-body exercise of the one or more upper-body exercises performed by the user.

A grippable haptic device includes an input device that receives a user input, a 9-axis sensor that detects movement of a hand of the user, a vibrator that provides a tactile sensation to the user, and a motion sensor that detects whether the user grips the grippable haptic device. An insole-type haptic device includes an input device that receives a user input, a plurality of 9-axis sensors that detect movement of a foot of the user, a vibrator that provides a tactile sensation to a sole of the foot of the user, and a plurality of pressure sensors that are distributed across the insole-type haptic device and measure a pressure exerted at each position of the sole of the user.

A grippable haptic device includes an input device that receives a user input, a 9-axis sensor that detects movement of a hand of the user, a vibrator that provides a tactile sensation to the user, and a motion sensor that detects whether the user grips the grippable haptic device. An insole-type haptic device includes an input device that receives a user input, a plurality of 9-axis sensors that detect movement of a foot of the user, a vibrator that provides a tactile sensation to a sole of the foot of the user, and a plurality of pressure sensors that are distributed across the insole-type haptic device and measure a pressure exerted at each position of the sole of the user.

A shoe insole and a shoe with an insole structure, which are capable of, concerning the foot arch structure, preventing fallen arches, restoring and correcting the arches, as well as allowing the wearers to maintain the sense of balance. The shoe insole comprises an insole main body having a substantially foot shape; a lower cushioning portion provided on the insole main body in a front portion thereof for supporting a part from the tiptoe to the position of the metatarsal head part; an upper cushioning portion having a substantially U shape provided on the lower cushioning portion for supporting a part corresponding to the positions of the toe, the first toe ball, and the fifth toe ball; and a heel supporting portion provided on the insole main body in a back portion thereof for supporting a portion corresponding to the position of the heel.

A shoe insole and a shoe with an insole structure, which are capable of, concerning the foot arch structure, preventing fallen arches, restoring and correcting the arches, as well as allowing the wearers to maintain the sense of balance. The shoe insole comprises an insole main body having a substantially foot shape; a lower cushioning portion provided on the insole main body in a front portion thereof for supporting a part from the tiptoe to the position of the metatarsal head part; an upper cushioning portion having a substantially U shape provided on the lower cushioning portion for supporting a part corresponding to the positions of the toe, the first toe ball, and the fifth toe ball; and a heel supporting portion provided on the insole main body in a back portion thereof for supporting a portion corresponding to the position of the heel.

The presently disclosed subject matter is generally directed to a shoe insert sized and shaped to accommodate a user's foot and fit inside a standard shoe (e.g., a golf shoe). The insert is configured with a gradient with a first height on a lateral edge and a second (lesser) height on a medial edge. In this way, the insert does not lay flat on the inside of the user's shoe but provides a gradient that stabilizes the user's weight to the center of the foot. Advantageously, the inserts allow the golfer to automatically assume a proper stance and to properly shift the body weight during a swing. As a result, the insert keeps a golfer from swaying during a golf swing, thereby reducing the incidence of shanking the ball.