RU2637981C1 - Integrated method of selecting and designing individual-ergonomic physical objects on basis of non-contact anthropometry - Google Patents

Abstract

FIELD: human vital needs satisfaction.

SUBSTANCE: invention consists in obtaining digitized volumetric human body dimensions, including a leg/a foot, without the need to undress, in their processing and saving the obtained three-dimensional images, as well as in ensuring application of these saved digitized exact volumetric human body dimensions in automatic selection of the appropriate model from the database of existing models of clothes and shoes when trying on clothes and shoes using spatially-variable robot-manikin and during individual manufacture of clothes, shoes, orthopaedic means.

EFFECT: improved method.

4 cl, 1 dwg

Description

The invention relates to systems and methods for processing data of anthropometry of the human body, intended for use in the sale of clothing, footwear, and in particular in electronic commerce, as well as in the manufacture of orthopedic products.

With the development of the Internet, remote ordering of items of clothing and footwear without preliminary fitting is becoming more widespread. At the same time, suppliers are forced to pay for the return of clothes and shoes by buyers if the characteristics of the body and / or legs / feet of the buyer do not match, on the one hand, and the exact sizes of the items of clothing and shoes supplied, on the other. The return of goods ordered remotely via the Internet reaches 30% of the total turnover of distance selling stores and significantly exceeds the return of pre-tried goods in stationary stores. Thus, distance trading, saving on the rental of premises, incurs significant costs associated with the return of the wrong size goods.

There are various ways to solve this problem associated with obtaining digitized body data of a particular person and the subsequent use of these data for the selection and manufacture of clothes and shoes, including electronic commerce. So, there is a known method of designing clothes based on non-contact anthropometry (see, for example, RF patent No. 2358628), which includes measuring the surface of a consumer’s body using a technical vision system by simultaneously taking pictures of a consumer from different angles, transferring the measurement data to a computer, generating stereo pairs from images , decoding of each stereo pair with the construction of a surface corresponding to the part of the body being measured, the formation of the surface of a virtual dummy, data transfer to the clothes CAD, allocation to overhnosti virtual dummy selected reference points corresponding to the garment. In this case, in the future, at these points, the values of the gaps are set, a three-dimensional design of the designed product is obtained, division lines, drawing and texture of the material are applied. Thus, they deploy a three-dimensional structure to a plane, taking into account the properties of materials, and prepare patterns for a model of a garment, and then transfer them to automatic cutting. However, this method of non-contact measurement of anthropometric data for the manufacture of clothes / shoes based on photographic modeling is characterized by low measurement accuracy, requires complete exposure or photographing in specialized, tight clothing, which creates inconvenience for the consumer.

A known method (see, for example, application for the grant of CN patent No. 10513935), in which it is proposed to put a person on a rotating base opposite the photo scanner and, rotating it, get a scanned image, create a 3D model of the human body, and then, using the data obtained, using a computer to select the appropriate model of clothing.

There is also a method for remote selection of clothes (see, for example, application for the grant of CN patent No. 10513935), in which the buyer’s subsystem is connected to the seller’s subsystem, while on the buyer’s side there is a scanner that allows to obtain voluminous data about the buyer, and on the seller’s side be a 3D printer, with the help of which models from foam or inflatable dolls are printed corresponding to the size of the buyer and which further help in the selection of clothes.

At the same time, there are volumetric scanners used, for example, for security purposes at airports to scan the exact size of a person’s body for security purposes (see, for example, http://avia.travel.ru/airports/185242.html).

The technical result of the claimed invention is to ensure the digitized accurate volumetric parameters of the human body, including the leg / foot without undressing, in their processing and preservation of the obtained three-dimensional images, as well as to ensure the use of these stored digitized exact volumetric parameters of the human body with the automatic selection of a suitable model from a database of existing models of clothes and shoes, when trying on clothes and shoes using spatially variable roboman Ken and custom-made clothing, footwear, orthopedic aids.

The specified technical result is achieved by the fact that with a comprehensive method for the selection and design of individual ergonomic physical objects based on non-contact anthropometry, which contains processes of scanning the body, processing and storing the obtained data and using them for the selection and manufacture of clothes, shoes and orthopedic products, they first create a base these parameters of the corresponding body, while scanning it under clothing or inside shoes using a 3D microwave or X-ray scan RA, and subsequently, processing and storing the obtained three-dimensional image in the database of similar images with the assignment of a three-dimensional image to each three-dimensional image, an appropriate identification code-number is selected by comparing the data from the database of the stored three-dimensional image having the corresponding identification code-number with the data already existing digitized patterns and pads of clothes and shoes, as well as data on models of clothes, shoes and orthopedic products, previously scanned by the power of a 3D scanner, and the fitting of specific items of clothing and shoes is carried out using a spatially variable robomaniken, using data on traditional sizes of clothes and shoes, and, in addition, in the case of the individual production of copies of clothes, shoes and orthopedic products made either by selecting the exact patterns and pads or making them in accordance with the data from the database of the saved three-dimensional image with the corresponding identification code number, or by making an Mplyarov individual clothing, shoes and orthopedic products on a 3D printer. At the same time, a spatially variable dummy is used as a robomanikin, the external parameters of which can be modified using a mechanical, or pneumatic, or hydraulic actuator to match its specified anthropometric data (see, for example, http://zoom.cnews.ru/rnd/ news / line / robotymanekeny_kupit_odezhdu_onlayn_stanovitsya_proshhe).

This technical solution consists in using the existing volumetric microwave or X-ray scanners together with the corresponding software, within which it is possible to determine and digitize the exact volumetric parameters of the human body, including the human foot / foot, without the need for undressing. Such scanners can be installed in accessible places, such as shopping malls, even existing scanners at airports can be used, when passing through which the parameters of the human body will be entered into the corresponding database, in which each three-dimensional image of this person is assigned a unique identification code-number in such a database. This unique number may be provided by the indicated person to manufacturers / suppliers of clothing, shoes, orthopedic products, which, when accessing the database, will gain access to the exact volumetric characteristics of the human body.

In the attached FIG. 1 shows a diagram of the functioning and interaction of the processes that make up the integrated method for the selection and design of individual ergonomic physical objects based on non-contact anthropometry.

The following notation is used in the above diagram:

1 - creating a database of body parameters;

2 - selection and production of copies of clothes and shoes;

3 - generation of data on the parameters of shoes and clothes;

4 - body scan using a 3D volume scanner: microwave or X-ray;

5 - processing and storage of the obtained three-dimensional image in the database;

6 - selection of a suitable model by comparing data from a database of a stored three-dimensional image having a corresponding identification code number with the data of existing digitized patterns and pads of clothes and shoes;

7 - fitting clothes and shoes using a spatially variable robomaniken before sending to the consumer;

8 - individual production of copies of clothing, shoes, orthopedic products;

9 - data on the existing digitized patterns and pads of clothes and shoes;

10 - data models of clothes, shoes and orthopedic products, pre-scanned using a 3D scanner;

11 - data on the traditional sizes of clothes and shoes;

12 - selection of the exact patterns and pads or their manufacture in accordance with the data from the database of the stored three-dimensional image with the corresponding identification code number;

13 - making copies of individual clothes, shoes and orthopedic products on a 3D printer.

With the claimed method, pos. 1, 2, 3, on the part of manufacturers / suppliers of clothing exact parameters of the human body, pos. 4, 5, can be used as follows: selection of the most suitable clothes / shoes from the existing assortment by comparing the anthropometric data of a person obtained from the image database with the assignment of a three-dimensional image to the corresponding identification code-number, pos. 5, with the sizes of patterns / blocks in the supplier / manufacturer’s own database, pos. 9. This comparison can be done instantly programmatically when a customer selects clothing / footwear styles of interest to him / her on the Internet site. Special software installed on the site can also demonstrate a virtual model of landing this model of clothes / shoes on the body of a given buyer from different sides, pos. 6. In addition, to select the most appropriate clothes / shoes from the existing assortment, by manually trying on clothes / shoes using a special robot-mennequin pos. 7, the spatial and spatial parameters of which vary in accordance with the specified parameters from the images with the assignment of a three-dimensional image to the corresponding identification code number, pos. 5. The use of robomaniken, pos. 7 may be required if there is no digitized database of parameters of the existing assortment of clothes / shoes, pos. 11. In addition, for the manufacture of clothes and shoes according to the exact anthropometric data of the client (on order), pos. 8, using the following options: either as the selection of the most suitable patterns / blocks, or the manufacture of precise patterns / blocks using a programmed machine, or a 3D printer, pos. 12, or printing on a 3D printer of clothes and shoes in accordance with the selected style, based on the exact received anthropometric data of the client, pos. 5, pos. 13, or the manufacture of individual clothes / shoes with fitting on robomanikene, pos. 7. Moreover, as a robomaniken, pos. 7, a spatially variable dummy is used, the external parameters of which can be modified using a mechanical, or pneumatic, or hydraulic actuator to match its predetermined anthropometric data.

An X-ray machine with a software package on the side of the supplier / manufacturer of shoes can also be used to digitize the parameters of the shoe assortment. This X-ray machine scans shoes, including inside the packaging box, the software complex digitizes the internal surface of the shoes in the same system as the data with the corresponding identification code number, pos. 5, for their comparison.

As an additional solution, an X-ray or microwave scanner can be used on the side of the manufacturer / supplier to digitize garments, however, for this, the clothes should be dressed in special mannequins that are transparent to the scanning rays.

The above features of the invention applicable to the manufacture and selection of clothes and shoes are also applicable to the manufacture and selection of orthopedic items.

Claims (4)

1. An integrated method for the selection and design of individually-ergonomic physical objects based on non-contact anthropometry, containing processes of scanning the body, processing, storing the obtained data and using them for the selection and manufacture of clothes, shoes and orthopedic devices, characterized in that they first create a database of parameters the corresponding body, while scanning it under clothing or inside shoes using a 3D microwave or X-ray scanner, and subsequently, processing and protecting the obtained three-dimensional image in the database of similar images with assigning each three-dimensional image the corresponding identification code-number, select the appropriate model by comparing the data from the database of the saved three-dimensional image having the corresponding identification code-number with the data of the existing digitized patterns and pads of clothes and shoes , as well as data on models of clothing, shoes and orthopedic products previously scanned using a 3D scanner, Nail copies of clothes and shoes are carried out using a spatially variable robomanik, using data on traditional sizes of clothes and shoes, and, in addition, in the case of individual production of copies of clothes, shoes and orthopedic products, this is done either by selecting accurate patterns and pads or their manufacture in accordance with the data from the database of the stored three-dimensional image with the corresponding identification code-number, or by making copies of individual clothes, shoes and orthopedic aids the 3D-printer. 2. The complex method according to claim 1, characterized in that a spatially variable mannequin is used as a robotic dummy, the external parameters of which are modified using a mechanical drive to match its predetermined anthropometric data. 3. The complex method according to claim 1, characterized in that a spatially variable mannequin is used as a robotic dummy, the external parameters of which are modified using a pneumatic drive to match its predetermined anthropometric data. 4. The complex method according to p. 1, characterized in that a spatially variable dummy is used as a robotic dummy, the external parameters of which are modified using a hydraulic actuator to match its predetermined anthropometric data.

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