Embodiments generally relate to a tailoring platform. In some embodiments, a method includes scanning a body of a user using a camera device, where the scanning captures images of the body from a predetermined pattern of perspectives. The method further includes computing one or more depth maps of the body based on the movement of the camera device. The method further includes constructing a three-dimensional (3D) point cloud that models the body based at least in part on the one or more depth maps. The method further includes identifying candidate garments for the user based on the 3D point cloud and one or more garment selection policies.

Embodiments generally relate to a tailoring platform. In some embodiments, a method includes scanning a body of a user using a camera device, where the scanning captures images of the body from a predetermined pattern of perspectives. The method further includes computing one or more depth maps of the body based on the movement of the camera device. The method further includes constructing a three-dimensional (3D) point cloud that models the body based at least in part on the one or more depth maps. The method further includes identifying candidate garments for the user based on the 3D point cloud and one or more garment selection policies.

This multifunctional morphological measuring apparatus comprising a housing (104) having a slot, and a graduated flexible tape measure (6) inserted into said slot and having a first end held in the housing (104) and a second end (105) disposed at the exterior of the housing (104), the housing (104) enclosing means for winding the tape (6) in said housing (104) and an electronic control system (7) comprising an electronic card (15) having a computer and electronic memory components, the apparatus (100) further comprising means for measuring (12) a morphological index characteristic of a part of the human body (U0) around which the tape is at least partially wound (6).

This multifunctional morphological measuring apparatus comprising a housing (104) having a slot, and a graduated flexible tape measure (6) inserted into said slot and having a first end held in the housing (104) and a second end (105) disposed at the exterior of the housing (104), the housing (104) enclosing means for winding the tape (6) in said housing (104) and an electronic control system (7) comprising an electronic card (15) having a computer and electronic memory components, the apparatus (100) further comprising means for measuring (12) a morphological index characteristic of a part of the human body (U0) around which the tape is at least partially wound (6).

Methods and systems for monitoring and measuring form. A form analysis system can include a flexible garment, a sensor array including two or more sensors positioned on portions of the garment such that at least two of the two or more sensors are positioned on garment such that they align with body parts of the wearer of the garment that are separated by a joint, a harness coupled to the sensor array, the harness having stretchable wiring for communicating signals generated by the sensor array, and a hub coupled to the harness and configured to receive signals from the sensor array, the hub including a transmitter to transmit received signals to a base station.

A measuring device for determining the bra size of a user is disclosed. The device has a first (middle) band (100) for fitting around the user's bust to determine cup size, a second (lower) band (200) for fitting around the user's torso below the bust for determining band size, and a third (upper) band (300) for securing the device in position during measurement. The device also includes a panel (400) which is separable into two panel parts (410, 420) by means of a zipper (430). The first band is provided with cup size indicia (113) and the second band is provided with band size indicia (223). The second band (200) is configured to indicate the user's band size on the band size indicia (223), and the first and second bands (100, 200) are employed to determine the user's cup size on the cup size indicia (113). The panel parts (410, 420) can be separated after measurement so that the device can be removed by a user while still displaying the measurements. The band and cup size indicia may comprise any type of scale or units, depending on the sizing system employed.

A measuring device for determining the bra size of a user is disclosed. The device has a first (middle) band (100) for fitting around the user's bust to determine cup size, a second (lower) band (200) for fitting around the user's torso below the bust for determining band size, and a third (upper) band (300) for securing the device in position during measurement. The device also includes a panel (400) which is separable into two panel parts (410, 420) by means of a zipper (430). The first band is provided with cup size indicia (113) and the second band is provided with band size indicia (223). The second band (200) is configured to indicate the user's band size on the band size indicia (223), and the first and second bands (100, 200) are employed to determine the user's cup size on the cup size indicia (113). The panel parts (410, 420) can be separated after measurement so that the device can be removed by a user while still displaying the measurements. The band and cup size indicia may comprise any type of scale or units, depending on the sizing system employed.

A system for manufacturing underwear customized for a customer may generate a 3D body shape of a customer by 3D scanning; calculate, from the 3D body shape, unique body measurement information for each customer, needed for manufacturing customized underwear, and register the information; and then, if a customized purchase request for underwear is received from the customer, generate, for the target underwear requested for purchase, a design that fits the body shape of the customer on the basis of the registered body measurement information for each customer; and thereby maximize customer satisfaction and reduce an inventory.

A system for manufacturing underwear customized for a customer may generate a 3D body shape of a customer by 3D scanning; calculate, from the 3D body shape, unique body measurement information for each customer, needed for manufacturing customized underwear, and register the information; and then, if a customized purchase request for underwear is received from the customer, generate, for the target underwear requested for purchase, a design that fits the body shape of the customer on the basis of the registered body measurement information for each customer; and thereby maximize customer satisfaction and reduce an inventory.

A System for Measuring Body Kinetics includes a wearable device configured to be wrapped around a joint. A microprocessor is attached to the wearable device. One or more Inertial Measurement Units (IMUs) are connected to the microprocessor and arranged on the wearable device. The IMUs are arranged and configured to provide kinetic data concerning the joint to the microprocessor. A wireless transmission component is connected to the microprocessor. The microprocessor is configured to receive kinetic data from the IMUs, and to transmit the kinetic data by way of the wireless transmission component to a central processor or other device. An algorithm resides within the microprocessor or the central processor or other device, and is configured to determine the position of each IMU from the kinetic data. The wearable device may be constructed of fabric, strap, adhesive tape, or a combination thereof.