KR20200138489A - Customized shoes manufacture service method - Google Patents

Abstract

An object of the present invention is to implement a new custom manufacturing system which can further enhance customization by tracking effects of wearing customized shoes, not just manufacturing and selling the customized shoes. Provided is a customized shoes manufacture service method which can use data generated while wearing the customized shoes, and check whether the shoes are functioning in accordance with an original custom intention, thereby checking the customization.

Description

Customized shoe manufacturing service method{CUSTOMIZED SHOES MANUFACTURE SERVICE METHOD}

The present invention relates to the production of customized shoes, and more particularly, to a method of servicing the production of customized shoes.

There is a need to establish a mass customizing production system through matching ICT and Big Data technologies resulting from the 4th Industrial Revolution with the shoes industry technology that is based on the existing traditional industry.

Currently, custom shoes end with matching shoes by looking at and matching the size and shape of the feet when matching shoes.

Patent Publication No. 10-2015-0145527 {Publication date: December 30, 2015}

The problem to be solved by the present invention is to solve the above-described disadvantages, and not only to manufacture and sell customized shoes, but to track the effects that appear while wearing customized shoes, a new way of customizing that can further increase the customization. The purpose of implementing a manufacturing system is to provide a customized shoe manufacturing service method that can check the fit by tracking whether the shoe is functioning to meet the original custom intention using data generated while using the custom shoe.

The customized shoe manufacturing service method according to the present invention includes (i) foot scanning data and walking data measured on the feet of consumers at large national shoe stores, and a work instruction including the shoe structure and manufacturing method to a small official center, Ordering customized smart shoes; (ii) According to the order of the personalized smart shoes, the small official center produces the corresponding shoes based on the foot scanning data, the walking data, the shoe manufacturing work order, and the order details and provides them to the national shoe stores. Step to do; (iii) In the national shoe stores, the delivered product is delivered to the consumer using an inspection and delivery system, and then the consumer wears the manufactured custom shoe by a smart module mounted on the personalized smart shoe. Transmitting personal data to be generated when living daily life to a smart device; (iv) The smart device generates personal big data including gait information, exercise information, and body information based on the plurality of personal data from the plurality of smart modules, and analyzes the personal data corresponding to the consumer data. Obtaining a shoe effect and adequacy feedback and providing it to the shoe manufacturing expert system, and providing a tailoring and correction effect feedback to the smart module of the consumer and a smart healthcare support center operating system; (v) The exercise mechanics/shoes expert system retrieves and analyzes individual data corresponding to the consumer data from individual big data stored in the big data management system, and provides a personalized and corrective effect feedback to the consumer's smart module and smart healthcare. Providing a support center operating system and providing shoe effect and adequacy feedback to the shoe manufacturing expert system; And (vi) the smart healthcare support center operating system analyzes the personal data in response to the tailoring and correction effect feedback, provides health and shoe effect information to the consumer's smart module, and visits the smart healthcare support center to exercise. It characterized in that it comprises the step of receiving a prescription.

Step (i) comprises the steps of: (i-1) obtaining foot scanning data and gait data by measuring the consumer's foot and gait by a foot and gait measurement device at the national shoe store; (i-2) the kinematics/shoes expert system installed in the national shoe stores determining kinematics shoe requirements according to the gait data; And (i-3) the shoe manufacturing expert system installed in the national shoe stores generates a work instruction including a shoe structure and a manufacturing method based on the foot scanning data, the walking data, and the kinematic shoe requirements, and the It may include the step of ordering personalized smart shoes by providing the foot scanning data and the walking data to a small official center.

The size of the shoe frame including the last, new bone, and shoe shape is determined according to the size of the customer's foot, and the dimensions of each part of the shoe are determined according to the shoe frame size, and the kinematic shoe demands according to the walking data indicating the walking state. You can decide.

Step (i-3) may include the step of selecting a final upper pattern and material, creating a shoe window structure and hardness, and providing the shoe manufacturing expert system together with the work instruction to the small engineer center.

In step (ii), (ii-1) the small contractor center provides the foot scanning data and the walking data, the shoe manufacturing work instruction and order details to the small contractor according to the order of the personalized smart shoe Making it possible to produce; (ii-2) the step of providing a product in which the corresponding shoemaker has manufactured the shoe to the national shoe store through the small contractor center; And (ii-3) the small official center inspects the product and delivers it to the national shoe stores.

Step (iv) is (iv-1) the smart device generates personal data including gait information, exercise information, and body information based on the plurality of personal data from the plurality of smart modules to provide a big data management system. Providing each to store individual big data; (iv-2) The exercise mechanics/shoe expert system obtains shoe effect and adequacy feedback by obtaining individual data from the walking information DB, exercise DB, and body information DB of the big data management system and provides it to the shoe production expert system. And it may include the step of providing the customer's smart module and smart healthcare support center operating system feedback of the customization and correction effect.

The information DB stores the walking information including left and right balance, pressure movement, and foot pressure distribution, the exercise DB stores the movement information including the number of steps, exercise time, and movement distance, and the body information DB stores weight change , The left and right loads, and the body information including the reduction efficiency may be stored.

In step (v), the exercise mechanics/shoe expert system analyzes the walking/foot shape from the individual big data stored in the big data management system, determines the required function of the shoe, the structure of the shoe for satisfying the required function, and checks the exercise and correction effect. Thus, it may include the step of obtaining the tailoring and correction effect feedback.

Step (vi) includes (vi-1) the smart healthcare support center operating system analyzing the personal data in response to the tailoring and correction effect feedback to provide health and shoe effect information to the smart module of the consumer; And (vi-2) the smart module may include receiving the health and shoe effect information, visiting a smart healthcare support center, and receiving an exercise prescription.

In step (vi-1), the smart healthcare support center operating system includes big data in the smart healthcare support center including the personally customized smart shoe data analysis, exercise management and exercise prescription, exercise program operation, and virtual reality exercise system operation. It may include the step of analyzing the personal data based on the system operation and providing health and shoe effect information to the smart module of the consumer.

A customized shoe manufacturing service method according to another embodiment of the present invention includes: (i) Foot scanning data and gait data measured for a consumer's foot in a national shoe store, and a work instruction document including a shoe structure and manufacturing method. Ordering personalized smart shoes by providing them with; (ii) According to the order of the personalized smart shoes, the small official center produces the corresponding shoes based on the foot scanning data, the walking data, the shoe manufacturing work order, and the order details and provides them to the national shoe stores. Step to do; (iii) In the national shoe stores, the delivered product is delivered to the consumer using an inspection and delivery system, and then the consumer wears the manufactured custom shoe by a smart module mounted on the personalized smart shoe. Transmitting personal data to be generated when living daily life to a smart device; (iv) The smart device generates personal big data including gait information, exercise information, and body information based on the plurality of personal data from the plurality of smart modules, and analyzes the personal data corresponding to the consumer data. Obtaining a shoe effect and adequacy feedback and providing it to the shoe manufacturing expert system, and providing a tailoring and correction effect feedback to the smart module of the consumer and a smart healthcare support center operating system; (v) The exercise mechanics/shoes expert system retrieves and analyzes individual data corresponding to the consumer data from individual big data stored in the big data management system, and provides a personalized and corrective effect feedback to the consumer's smart module and smart healthcare. Providing a support center operating system and providing shoe effect and adequacy feedback to the shoe manufacturing expert system; And (vi) the smart healthcare support center operating system analyzes the personal data in response to the tailoring and correction effect feedback, provides health and shoe effect information to the consumer's smart module, and visits the smart healthcare support center to exercise. Including the step of receiving a prescription,

Step (i) comprises the steps of: (i-1) obtaining foot scanning data and gait data by measuring the consumer's foot and gait by a foot and gait measurement device at the national shoe store; (i-2) the kinematics/shoes expert system installed in the national shoe stores determining kinematics shoe requirements according to the gait data; And (i-3) the shoe manufacturing expert system installed in the national shoe stores generates a work instruction including a shoe structure and a manufacturing method based on the foot scanning data, the walking data, and the kinematic shoe requirements, and the Providing the foot scanning data and the walking data to a small official center to order personalized smart shoes,

In step (ii), (ii-1) the small contractor center provides the foot scanning data and the walking data, the shoe manufacturing work instruction and order details to the small contractor according to the order of the personalized smart shoe Making it possible to produce; (ii-2) the step of providing a product in which the corresponding shoemaker has manufactured the shoe to the national shoe store through the small contractor center; And (ii-3) the small official center inspects the product and then delivers it to the national shoe stores,

Step (iv) is (iv-1) the smart device generates personal data including gait information, exercise information, and body information based on the plurality of personal data from the plurality of smart modules to provide a big data management system. Providing each to store individual big data; (iv-2) The exercise mechanics/shoe expert system obtains shoe effect and adequacy feedback by obtaining individual data from the walking information DB, exercise DB, and body information DB of the big data management system and provides it to the shoe production expert system. And providing a personalized and corrective effect feedback to the consumer's smart module and a smart healthcare support center operating system,

Step (vi) includes (vi-1) the smart healthcare support center operating system analyzing the personal data in response to the tailoring and correction effect feedback to provide health and shoe effect information to the smart module of the consumer; And (vi-2) the smart module receiving the health and shoe effect information, visiting a smart healthcare support center, and receiving an exercise prescription.

The technology development step according to the present invention is divided into a step of producing a smart custom shoe and a step of performing health care while the user wears the custom shoe.

In the production stage, the products of small craftsmen are displayed in shoe stores of large corporations across the country to produce customized shoes that fit the customer's foot size, walking characteristics, and taste. Smart customized shoes are produced by transmitting the measured data through the foot and gait measurement device provided in the shoe store to the custom shoe manufacturing expert system, and the expert system generates a work order to be delivered to the small artisan and delivers it to the small artisan. Personalized shoes made by small craftsmen are inspected through the factory quality process that applies the standards of large corporations, such as the quality inspection of large corporations), are delivered to consumers, and provide after-sales service such as A/S using the infrastructure of large corporations. This is possible.

As sharing and coexistence, mutual development and corporate sales are expected to increase by sharing the brand's national stores and product promotions with small and medium-sized enterprises that do not have stores and sales channels. In providing recipes for manufacturing shoes for health care, high value-added effects are expected for products produced by providing customized shoe manufacturing technology according to individual dimensions and athletic characteristics to small and medium-sized enterprises (in Europe, diabetes is the price of customized shoes due to other diseases) This is more than 300,000~400,000 won).

As a result of the spread of small business owners' participation, small business owners are expected to improve their technical skills through systematic training on custom-made footwear production, and an opportunity to grow into a small and medium-sized business by conducting economic activities as a partner of a large domestic shoe company. It is easy to cultivate successors and specialists in the future, and shorten the technology transfer time (maintaining the skills of small officials) by implementing a database and systematization of the know-how of small craftsmen. The improvement of the customized shoe manufacturing environment combined with ICT and specialized facilities will increase the number of new small business owners and activate the activities of existing small business people. -Increased awareness of Sogongin's products due to the advertising and promotional effects of large corporate brands, and the value of Sogongin's own brand.

For personal health management and accident prevention, detects the degree of risk of diseases and accidents (fall risk, dementia, lack of exercise, posture imbalance, etc.) through data analyzed by wearable devices that can analyze walking and movement of the elderly, children, and the elderly It is expected to be effective in preventing disease by notifying it In the implementation of the 100-year-old national health, the Health Welfare Center is expected to induce social activities for the elderly and promote health through exercise of children and the elderly by providing various exercise methods and exercise equipment. In preoccupying global market competitiveness, a new concept Korean customized shoe manufacturing platform and a full-cycle healthcare support system that can respond to customized healthcare footwear products of overseas big brands in accordance with the 4th industrial revolution era (in use since the purchase of shoes) We secure overseas competitiveness by developing a system that can be managed according to the individual's feet and movement characteristics while purchasing shoes again after use.

1 is a view for explaining a customized shoe manufacturing service method according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating a flow of information in the customized shoe manufacturing service method shown in FIG. 1.
3 is a diagram illustrating a process of manufacturing a customized smart shoe among the customized shoe manufacturing service method illustrated in FIG. 1.
FIG. 4 is a diagram illustrating a health care process while wearing a customized shoe manufacturing service method shown in FIG. 1.

Before describing various embodiments of the present invention in detail, its application is not limited to details of configurations and arrangements of elements described in the following detailed description or illustrated in the drawings. The present invention may be implemented and practiced in different embodiments and may be performed in various ways. Also, the device or element orientation (eg "front", "back", "up", "down", "top", "bottom" The expressions and predicates used herein with respect to terms such as ", "left", "right", "lateral"), etc. are used only to simplify the description of the present invention, and related devices Or it does not indicate or imply that the element should simply have a specific orientation.

Further, terms such as “first” and “second” are used in this application and the appended claims for purposes of explanation and are not intended to represent or imply any relative importance or spirit.

The present invention has the following features to achieve the above object. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the specification and claims should not be construed as being limited to their usual or dictionary meanings, and the inventors appropriately explain the concept of terms in order to explain their own invention in the best way. Based on the principle that it can be defined, it should be interpreted as a meaning and concept consistent with the technical idea of the present invention. Accordingly, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiment of the present invention, and do not represent all the technical spirit of the present invention. It should be understood that there may be equivalents and variations.

Hereinafter, a customized shoe manufacturing service method according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Foot scanning data and walking data measured on the feet of an individual (consumer) in a large national shoe store 100, and a work instruction including the shoe structure and manufacturing method are provided to the small official center operation system 200 to provide personalized smart Order shoes (steps S602 to S606). It will have a custom-made method of displaying custom-made shoes in stores nationwide of major shoe brands, receiving orders from stores, and delivering them to small craftsmen to make custom shoes. There is a catalog for making small craftsmen, so you can order designs that are not in the store.

Specifically, foot scanning data and walking data are obtained by measuring the feet and gait of the consumer 300 by a foot and gait measurement device (not shown) in the national shoe store 100 (step S602). In stores across the country, there is a scanning system (foot and gait measurement device) (not shown) for custom shoe manufacturing, which measures the dimensions of each part of the foot. In this way, the measurement data is transmitted to a shoe manufacturing expert system that manufactures personalized shoes.

The kinematic/shoe expert system 110 installed in the national shoe store 100 determines the kinematic shoe requirements according to the gait data (step S604). The size of the shoe frame (last, bone, shoe shape) is determined according to the size of the foot, and the dimensions of each part of the shoe are determined according to the size of the shoe frame. According to the gait data indicating gait status, the shoe requirements are determined from the kinematic perspective.

The shoe manufacturing expert system 120 installed in the national shoe store 100 generates a work instruction including a shoe structure and a manufacturing method based on the foot scanning data, the walking data, and the kinematic shoe requirements, and the The foot scanning data and the walking data are provided to the small engineer center operation system 200 to order personalized smart shoes (step S606).

Next, according to the order of the personalized smart shoes 310, the small official center operation system 200 manufactures the corresponding shoes based on the foot scanning data and the walking data, a work instruction sheet for shoe manufacturing, and order details. And it is provided to the national shoe stores 100 (steps S608 ~ S612).

Specifically, according to the order of the personalized smart shoes 310, the small official center operation system 200 sends the foot scanning data and the walking data, a work instruction for shoe manufacturing, and the order details to the small official terminal 210 It is provided as (S606) so that the small craftsman makes the corresponding shoe (step S608). The corresponding small official terminal 210 provides the product from which the corresponding shoe is manufactured to the national shoe store 100 through the small official center operation system 200 (step S610).

The small official center operation system 200 inspects the product and transmits it to the national shoe store 100 (step S612). After delivering the delivered product to the consumer 300 using the inspection/delivery system 130 in the national shoe stores 100 (step S614). That is, the personalized shoes made by small craftsmen are delivered to the consumer 300 after product inspection is performed through a factory quality process applying large company standards such as a quality inspection of a large company (step S612), and then shipped to the consumer 300 (step S614). In addition, it is possible to provide after-sale customer service such as A/S using the infrastructure of large companies.

By the smart module 320 mounted on the personalized smart shoe 310 worn by the consumer 300, the consumer 300 wears the manufactured custom shoe and performs daily life. Personal data is transmitted to the smart device 400 (step S616). The smart module 320 is an electronic component capable of measuring exercise data that can be measured on the left and right feet while the consumer 300 wears and uses the personalized smart shoes 310. Analysis of the data measured through the component confirms the effectiveness of fit and calibration.

The smart device 400 is based on a plurality of personal data from the plurality of smart modules (only one smart module is shown for the convenience of the city, but a plurality of smart modules are applied), such as basic walking Personal big data including information, exercise information such as running, and body information such as standing restraint are generated and provided to the big data management system 500 and stored in the walking information DB, exercise DB, and body DB, respectively (step S618. ). The data transmitted to the smart device 400 is determined whether the required function of the shoe tailored to the consumer 300 is properly performed through various analysis. In addition, it is possible to have a preventive effect by predicting the possibility of occurrence of an injury due to a fall or an unbalanced load through the exercise data of the consumer 300.

The exercise mechanics/shoe expert system 110 obtains individual data from the walking information DB, exercise DB, and body information DB of the big data management system (step S620), and obtains shoe effect and adequacy feedback, and the shoe production expert It provides to the system 120 (S622) and provides the customer's smart module 320 and the smart healthcare support center operation system 600 with the feedback of the tailoring and correction effect (step S624).

The smart healthcare support center operation system 600 analyzes the personal data in response to the tailoring and correction effect feedback and provides health and shoe effect information to the smart module 320 of the consumer (step S626).

Thereafter, the smart module 320 receives the health and shoe effect information, visits a smart healthcare support center, and receives an exercise prescription (step S628).

100: Large national shoe store 110: Kinematics/shoes expert system
120: shoe manufacturing expert system 130: inspection/delivery system
200: small official center operation system 210: small official terminal
300: Consumer 310: Personalized Smart Shoes
320: smart module 400: smart device
500: big data management system
600: Smart healthcare support center operation system

Claims (11)

(i) ordering personalized smart shoes by providing a work instruction including foot scanning data and gait data measured on a consumer's foot in a national shoe store, and a shoe structure and manufacturing method to a small craftsman center;
(ii) According to the order of the personalized smart shoes, the small official center produces the corresponding shoes based on the foot scanning data, the walking data, the shoe manufacturing work order, and the order details and provides them to the national shoe stores. Step to do;
(iii) In the national shoe stores, the delivered product is delivered to the consumer using an inspection and delivery system, and then the consumer wears the manufactured custom shoe by a smart module mounted on the personalized smart shoe. Transmitting personal data to be generated when living daily life to a smart device;
(iv) The smart device generates personal big data including gait information, exercise information, and body information based on the plurality of personal data from the plurality of smart modules, and analyzes the personal data corresponding to the consumer data. Obtaining a shoe effect and adequacy feedback and providing it to the shoe manufacturing expert system, and providing a tailoring and correction effect feedback to the smart module of the consumer and a smart healthcare support center operating system;
(v) The exercise mechanics/shoes expert system retrieves and analyzes individual data corresponding to the consumer data from individual big data stored in the big data management system, and provides a personalized and corrective effect feedback to the consumer's smart module and smart healthcare. Providing a support center operation system and providing shoe effect and adequacy feedback to the shoe manufacturing expert system; And
(vi) The smart healthcare support center operation system analyzes the personal data in response to the tailoring and correction effect feedback, provides health and shoe effect information to the consumer's smart module, and visits the smart healthcare support center to prescribe exercise. Customized shoe manufacturing service method comprising the step of receiving a. The method of claim 1, wherein step (i) is
(i-1) obtaining foot scanning data and gait data by measuring a consumer's foot and gait by a foot and gait measurement device at the national shoe store;
(i-2) the kinematics/shoes expert system installed in the national shoe stores determining kinematics shoe requirements according to the gait data; And
(i-3) The shoe manufacturing expert system installed in the national shoe stores generates a work instruction including a shoe structure and a manufacturing method based on the foot scanning data, the walking data, and the kinematic shoe requirements, and the A customized shoe manufacturing service method comprising the step of ordering personalized smart shoes by providing the foot scanning data and the walking data to a small official center. The method of claim 2, wherein the size of the shoe frame including the last, the new bone, and the shoe shape is determined according to the size of the customer's foot, and the dimensions of each part of the shoe are determined according to the shoe frame size, and the walking data indicating the walking state Custom shoe manufacturing service method to determine the kinematic shoe requirements according to. The method of claim 2, wherein step (i-3) is
The shoe manufacturing expert system selects a final upper pattern and material, generates a shoe window structure and hardness, and provides it to the small engineer center along with the work instruction. The method of claim 1, wherein step (ii) is
(ii-1) The step of producing the corresponding shoe by providing the foot scanning data, the walking data, the shoe manufacturing work instruction, and ordering details by the small contractor according to the order of the personalized smart shoe ;
(ii-2) the step of providing a product in which the corresponding shoemaker has manufactured the shoe to the national shoe store through the small contractor center; And
(ii-3) The customized shoe manufacturing service method comprising the step of the small official center inspecting the product and then delivering it to the national shoe stores. The method of claim 1, wherein step (iv) is
(iv-1) The smart device generates personal data including walking information, exercise information, and body information based on a plurality of personal data from the plurality of smart modules, and provides them to a big data management system, Storing the data;
(iv-2) The exercise mechanics/shoe expert system obtains shoe effect and adequacy feedback by obtaining individual data from the walking information DB, exercise DB, and body information DB of the big data management system and provides it to the shoe production expert system. And providing a personalized and corrective effect feedback to the consumer's smart module and a smart healthcare support center operating system. The method of claim 6, wherein the walking information including left and right balance, pressure movement, and foot pressure distribution is stored in the information DB, and the movement information including the number of steps, exercise time, and movement distance is stored in the exercise DB. A customized shoe manufacturing service method in which the body information including weight change, left and right load, and weight loss efficiency is stored in the body information DB. The method of claim 1, wherein step (v) comprises: the kinematics/shoes expert system analyzes the walking/foot shape from the individual big data stored in the big data management system, determines a shoe request function, a shoe structure for satisfying a demand function, and A customized shoe manufacturing service method comprising the step of obtaining the tailoring and correction effect feedback based on the correction effect check. The method of claim 1,
Step (vi) is
(vi-1) the smart healthcare support center operating system analyzing the personal data in response to the tailoring and correction effect feedback to provide health and shoe effect information to the smart module of the consumer; And
(vi-2) The smart module is provided with the health and shoe effect information, visits a smart healthcare support center, and receives an exercise prescription. The method of claim 9, wherein the step (vi-1) comprises the smart health care support center operating system analyzing the personalized smart shoe data, exercise management and exercise prescription, exercise program operation, and virtual reality exercise system operation. A customized shoe manufacturing service method comprising the step of analyzing the personal data based on the operation of a big data system in a care support center and providing health and shoe effect information to a smart module of a consumer. (i) ordering personalized smart shoes by providing a work instruction including foot scanning data and gait data measured on a consumer's foot in a national shoe store, and a shoe structure and manufacturing method to a small craftsman center;
(ii) According to the order of the personalized smart shoes, the small official center produces the corresponding shoes based on the foot scanning data, the walking data, the shoe manufacturing work order, and the order details and provides them to the national shoe stores. Step to do;
(iii) In the national shoe stores, the delivered product is delivered to the consumer using an inspection and delivery system, and then the consumer wears the manufactured custom shoe by a smart module mounted on the personalized smart shoe. Transmitting personal data to be generated when living daily life to a smart device;
(iv) The smart device generates personal big data including gait information, exercise information, and body information based on the plurality of personal data from the plurality of smart modules, and analyzes the personal data corresponding to the consumer data. Obtaining a shoe effect and adequacy feedback and providing it to the shoe manufacturing expert system, and providing a tailoring and correction effect feedback to the smart module of the consumer and a smart healthcare support center operating system;
(v) The exercise mechanics/shoes expert system retrieves and analyzes individual data corresponding to the consumer data from individual big data stored in the big data management system, and provides a personalized and corrective effect feedback to the consumer's smart module and smart healthcare. Providing a support center operation system and providing shoe effect and adequacy feedback to the shoe manufacturing expert system; And
(vi) The smart healthcare support center operation system analyzes the personal data in response to the tailoring and correction effect feedback, provides health and shoe effect information to the consumer's smart module, and visits the smart healthcare support center to prescribe exercise. Including the step of receiving provided,
Step (i) is
(i-1) obtaining foot scanning data and gait data by measuring a consumer's foot and gait by a foot and gait measurement device at the national shoe store;
(i-2) the kinematics/shoes expert system installed in the national shoe stores determining kinematics shoe requirements according to the gait data; And
(i-3) The shoe manufacturing expert system installed in the national shoe stores generates a work instruction including a shoe structure and a manufacturing method based on the foot scanning data, the walking data, and the kinematic shoe requirements, and the Including the step of ordering personalized smart shoes by providing the foot scanning data and the walking data to a small official center,
Step (ii) is
(ii-1) The step of producing the corresponding shoe by providing the foot scanning data, the walking data, the shoe manufacturing work instruction, and ordering details by the small contractor according to the order of the personalized smart shoe ;
(ii-2) the step of providing a product in which the corresponding shoemaker has manufactured the shoe to the national shoe store through the small contractor center; And
(ii-3) the small official center inspects the product and then delivers it to the national shoe stores,
Step (iv) is
(iv-1) The smart device generates personal data including walking information, exercise information, and body information based on a plurality of personal data from the plurality of smart modules, and provides them to a big data management system, Storing the data;
(iv-2) The exercise mechanics/shoe expert system obtains shoe effect and adequacy feedback by obtaining individual data from the walking information DB, exercise DB, and body information DB of the big data management system and provides it to the shoe production expert system And providing a personalized and corrective effect feedback to the consumer's smart module and a smart healthcare support center operating system,
Step (vi) is
(vi-1) the smart healthcare support center operating system analyzing the personal data in response to the tailoring and correction effect feedback to provide health and shoe effect information to the smart module of the consumer; And
(vi-2) The smart module is provided with the health and shoe effect information, visits a smart healthcare support center, and receives an exercise prescription.

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