Provided is a size measurement system for measuring the size of a user's foot, said system characterized by comprising: a size measurement instrument which is formed from a stand for the user to place the foot thereon, and a plurality of markers which are positioned in the periphery of the stand; and a measurement terminal which captures an image of a state in which the user has placed the foot on the stand in the size measurement instrument such that the plurality of markers can be recognized from a plurality of directions, and which computes size data for the foot from contour information for the foot obtained through the image capture from each of the directions

A method for measuring foot size and shape by using image processing includes a step of acquiring an image captured by simultaneously photographing a user's foot and an item having a standardized size; and a calculation step of calculating foot size or shape information from the image. The image is captured when at least a part of the user's foot comes in contact with the item.

Systems and processes for measuring and sizing a foot are provided. In one exemplary process, at least one image of a foot and a horizontal reference object from a first point of view is captured. A portion of the foot may be disposed against a vertical reference object. The at least one image may be displayed, where one or more camera guides are overlaid on the at least one displayed image. In response to aligning the one or more camera guides with one or more of the horizontal reference object and the vertical reference object, a measurement of the foot based on the at least one captured image from the first point of view is determined.

The proposed approach is a system and method that allows a user to calculate a 3D model for each of his or her feet using a simple reference object and a mobile computing device with one or more cameras and/or one or more sensors. The mobile computing device moves around the user's feet to scan and/or capture data of his or her feet via the camera and/or the sensors. The captured sensor data is then processed by the mobile computing device to create two sets of 3D (data) point sets (also referred to as “point clouds”). These point clouds are then matched to a 3D model of an average foot to establish a correspondence between the point clouds and the 3D model. Once the correspondence is established, the mobile computing device is configured to fit one or more morphable models to the user's feet.

A prediction device includes: a communication device that acquires measurement subject data including measurement data of a shape of a foot of a measurement subject person in a loaded state; a storage that stores first sample data in the loaded state and second sample data in an unloaded state, the first sample data and the second sample data being calculated from measurement data of foot shapes of a plurality of samples, the samples being identical both in the loaded state and the unloaded state; and a processor that predicts the shape of the foot of the measurement subject person in the unloaded state. The processor calculates a difference between the measurement subject data and the first sample data, and predicts the shape of the foot of the measurement subject person in the unloaded state based on the difference and the second sample data.

An article of footwear includes an upper and a sole structure with a sole member. The sole member can be manufactured using a customized cushioning sole system. A user's foot morphology and/or preferences may be used to design the sole member. The sole member can include a column of apertures that are formed along the outer surface of the sole member.

One aspect of this disclosure is a method comprising: receiving, from a camera, a video feed depicting a pair of feet and a scaling object; capturing, with the camera, images of the feet and the scaling object based on the video feed; identifying foot features in each captured image; determining camera positions for each captured image by triangulating the foot features; generating a point cloud in a three-dimensional space by positioning each foot feature in the three-dimensional space based on the camera positions; scaling the point cloud based on the scaling object; segmenting the point cloud into at least a right-foot cluster and a left-foot cluster; fitting a first three-dimensional morphable model to the right-foot cluster according to first foot parameters; and fitting a second three-dimensional morphable model to the left-foot cluster according to second foot parameters. Related systems, apparatus, and methods also are described.

Systems and processes for measuring and sizing a foot are provided. In one exemplary process, at least one image of a foot and a horizontal reference object from a first point of view is captured. A portion of the foot may be disposed against a vertical reference object. The at least one image may be displayed, where one or more camera guides are overlaid on the at least one displayed image. In response to aligning the one or more camera guides with one or more of the horizontal reference object and the vertical reference object, a measurement of the foot based on the at least one captured image from the first point of view is determined.

A design support apparatus includes: an input unit that receives shoe last data; a processor (computing unit) that computes a cutting pattern of a sheet based on the shoe last data received by the input unit; and an output unit that outputs the cutting pattern of the sheet computed by the processor. The processor calculates an amount of correction in consideration of a shrinkage direction and a shrinkage coefficient of the sheet, and calculates the cutting pattern of the sheet by developing, on a plane, three-dimensional shape data that conforms to a dimension of the shoe last data, to thereby obtain a shape pattern of an upper, and incorporating the calculated amount of correction into the shape pattern of the upper.

A system for managing foot length information of a growing person is to be provided. A foot length information management system includes: a measurement unit that measures foot length; a storage unit that stores multiple patterns of growth curve information; an age information input unit into which age information of a customer is entered; and a growth curve information selecting unit that refers to the age information to select growth curve information corresponding to foot length measured by the measurement unit, from among the multiple patterns of growth curve information. The foot length information management system may further include a recording unit in which past foot length is recorded, and the growth curve information selecting unit may select growth curve information based on foot length recorded in the recording unit and foot length measured by the measurement unit.