FI124259B - Tailor-made shoe manufacturing - Google Patents

Description

Mass customization of footwear

Field of the Invention

The invention relates to the manufacture of footwear on the basis of individually determined foot dimensions, in particular production control on the basis of said dimensions.

Background of the Invention

Footwear production is typically mass-produced, with each footwear model being manufactured in large batches with specific, predetermined size numbers and final designs. With conventional manufacturing technology, it has been advantageous to have fewer variations in designs, size numbers, and finest designs, resulting in sufficiently large kits for cost efficiency and small tolerances in design. However, this is not advantageous for the customer as it can be difficult to find a pair of footwear 15 that is particularly suited to the customer's foot 15, particularly due to the standard dimensions of the whole numbers and the leg patterns.

It is known that footwear can also be made to order. In this case, the customer's feet are manually taken to the required dimensions, which are used to make the footwear with a unique size number and last. Typically, this is a single piece of largely handmade footwear, with slower 20s and higher costs. If you want to buy non-woven footwear from another store, the slow and arduous measurement process itself must be repeated.

Recent advances in computer-aided design and scanning technology have led to the development of various automated foot measurement methods.

? 25 For example, in United States Patent Nos. 5128880 and US5

5206804 discloses a two-dimensional electro-optical foot scanner and a method for scanning the foot. Two-dimensional, that is, from the sole of the foot, based on the specified foot dimensions, the height H of the feet can be calculated or measured with a separate tape measure, and

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30 ta is determined by the volume of the foot. On the basis of these specifications, the size of the footwear is determined and the order of the footwear is made on the basis of the specified size. The size determination also determines the manufacturing pattern of the ™. Production can be controlled on the basis of orders placed and orders can also be used to calculate statistical forecasts of demand and production items for each footwear model.

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The problem with the arrangement described above is the inadequacy of two-dimensional scanning for accurate foot measurements. Experience with two-dimensional foot sole measurement shows that two-dimensional measurement practically does not provide measurement data for the height of the different parts of the foot, and thus does not provide sufficiently accurate measurements of the foot volume. Determining height measurements based on the dimensions of the sole of the foot does not take into account variations in the volume of the feet in different people. In addition, volume measurement alone does not tell the shape of the foot precisely enough to produce a well-fitting foot 10. For example, feet with the same size number (i.e., foot length) may have differences of several centimeters in circumference at certain points on the foot. Similarly, manual tape measurement is a slow process that is prone to errors and measurement of incorrect dimensions. In the case of manual measurement, it is also not possible to determine the tension of the tape, whereby the measurement results of the gear-15 will rest depending on the meter, even if the measuring point is correctly determined. Thus, manual measurement is not a reliably reproducible measurement process that would give the same results at every measurement. However, the manufacture of suitable footwear requires a high degree of accuracy in all specified dimensions.

Therefore, the two-dimensional measurements of the leggings and the footwear to be manufactured are not sufficiently accurate to the size of the measured foot. Thus, because the footwear to be manufactured is not sized precisely enough, the customer does not obtain suitable footwear despite the scan, which causes dissatisfaction with the customer towards the manufacturer and the seller.

A further problem is that the measurement of the customer's feet is carried out at a particular retail store where the customer-specific information is stored in the information system. If a customer wants to buy footwear from another retail store, foot measurement and data storage and modifications are done-

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^ va again. Footwear is also supplied to the customer through said retail store, which complicates delivery arrangements and raises the price by 30, for example, when doing business in another country or country | in circulation. Likewise, tailor-made models of tailor-made models are delivered either to a retailer or to a customer who can order more suitable footwear through said model. This also complicates the customer

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o Doing business in another retail store. The aforementioned inconvenience experienced by the customer 00 35 is also a problem for the footwear manufacturer as it may weaken the customer's brand loyalty.

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Brief Description of the Invention

It is therefore an object of the invention to provide a method and apparatus implementing the method so that the above problems can be solved. The objects of the invention are achieved by a method, a measuring apparatus and a computer program which are characterized by what is stated in the independent claims.

Preferred embodiments of the invention are claimed in the dependent claims.

The invention is based on the determination of the customer's feet the measurement data required for mass production of individually specified footwear. The determination begins by measuring the customer's feet with an imaging device arranged to form a three-dimensional image of the foot. Such imaging means may advantageously be a three-dimensional electro-optical foot scanner. From the image, from the predetermined foot reference 15 points, the first dimension data for the foot is determined, the first dimension data comprising at least a foot length dimension and a plurality of foot circumferences. Based on these first dimensions, the size and foot type information of the foot is determined, which describes the extent profile of the foot relative to the length of the foot. Finally, a standardized dimension for the manufacture of footwear is determined based on 20 foot type information and footwear size data. Thus, the foot, defined as a three-dimensional computer image, provides customized measurement data which, on the other hand, determines the three-dimensional shape of the foot very accurately, while directly providing standardized dimensional data for use in manufacturing.

According to a preferred embodiment of the invention, the plurality of circumferences of the foot are defined by reference points which are predetermined as a percentage relative to the length of the foot and having a predetermined measurement angle relative to the level of the sole of the foot. Further, according to a preferred embodiment of the invention, the circumference of the foot is determined at at least ten different positions.

An advantage of the method according to the invention is that it provides the customer with foot measurement data which, on the one hand, accurately determines the dimensions of footwear suitable for the customer's foot, and on the other hand is ready measurement data for use directly in footwear manufacture. The measurement process is essentially the same measurement data. Because the foot measurement data is pre-processed into a standard format that can be used in production, the space can be reproduced reliably so that measurement always gives the same feet

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4 us drives through production quickly if needed. Further optimization of production is facilitated by the fact that the manufacturer has information on all its customers, the measurement data for these feet and typically the desired footwear models and their variations in one place. The procedure increases the customer-5 collision of the customer as the customer can be sure of the fit of the footwear.

A further benefit for the customer is that the foot measurement process is quick to perform and does not need to be done more than once. After the customer's feet are once measured with a foot scanner and stored with customer identification data in the footwear manufacturer's database, 10 customers can order the footwear they want to fit their feet, regardless of time and place. Customer is not dependent on retail outlets, their location and opening hours. Also, the customer does not have to deposit any customer information or care about keeping the model, but it is sufficient for a registered customer to know their username and password to order new footwear.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will now be described in greater detail in connection with the preferred embodiments, with reference to the accompanying drawings, in which Figure 1 is a flow diagram illustrating, in simplified form, a dimensional determination according to the invention; and Figure 2 illustrates, by means of a simplified block diagram, the structure of the information system used in the invention.

DETAILED DESCRIPTION OF THE INVENTION

The simplified basic idea of the invention will now be described with reference to flow chart 1. At least one foot of a client, typically both feet, is measured by an imaging device arranged to form a three-dimensional image of said foot (100). Such imaging means may preferably be, for example, a three-dimensional foot scanner SK. For example, the foot is measured by fitting a tight-fitting thin to the customer's feet

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30 socks, after which the customer sets the foot scanner SK one foot at a time

”On. The foot is scanned with the foot scanner SK so that the three-dimensional shape o g of the foot is determined substantially, after which the determined foot shape ° is stored in a memory connected to the scanner as a three-dimensional image.

It is essential to the invention that the shape of the leg 35 stored in the memory be able to determine the standardized dimensional data (102) essential for manufacturing. These first dimensions are certain reference points that the foot must determine in order to make a suitable footwear. Thus, an information system connected to the foot scanner, such as software running on a PC PC, looks for these 5 standardized reference points in a three-dimensional image of the foot stored in memory and determines the first dimension information for said foot from said reference points.

This dimensional data to be determined from the reference points comprises at least the foot length, the width of the foot at the widest point, and several foot circumference measurements from predetermined standardized reference points. Preferably, these reference points are defined as percentages relative to the length of the foot. These percentages are predetermined so that the measurements of the circumference of the feet at these points give the essential dimensions for the manufacture of suitable footwear. In addition, for the measurements of the circumference of the feet from these reference points, the measuring angle relative to the level of the sole of the foot is preferably predetermined, thus ensuring the measurement of the desired circumference. If a measuring angle is not specified, for example, measuring the circumference from above the foot, where the foot begins to curve clearly, will result in a significantly different result, for example, from the pre-20 to the 30-degree circumference. Thus, in order to determine the exact measurement result, it is important that the measurement angle be determined in advance.

Further, in order to make a suitable footwear, there must be a sufficient number of said circumferences. Based on the statistical data collected from the measurements of the various legs, it can be said that the number of circumferences required is substantially at least ten. The most important girths for the fit of the 5 footwear are the feet and chest

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^ various circumferences to which most measurements should be applied.

On the basis of these determined first foot measurements, thus measured at 30 predefined reference points, the information system determines the foot type for each customer individually (104).

The foot type represents the different values of the first dimensions specified above

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5 relative to each other such that feet of substantially the same dimensions are of the same foot type. It can be said that the foot type ™ 35 determines the extent or profile of the foot, which is different from the width of the foot. In practice, the leg type is determined by first determining the 6 class parameters defined as the mutual computation operation of said first dimensions. Within certain limits of this class parameter, several foot type data classes are defined which thus represent different foot extent profiles in relation to foot length. For a foot-5 le, the value of the class parameter is calculated as the ratio of the first dimension data assigned to it, and this value of the foot parameter is compared to the predefined threshold values for the foot type data class parameters, followed by determining foot type data for said foot.

The foot type information is combined with the size of the foot 10 determined by the length of the foot, resulting in a preliminary formula, or standardized measurement data, for making a suitable footwear (106). It should be noted that the circumference of the foot is not exactly the same as that of the footwear suitable for the foot or of the dressing material used to make it, since certain comfort tolerances should always be dimensioned in the footwear so that it does not feel squeezable. The footwear 15, on the other hand, must be fitted at appropriate positions, whereby certain dimensions of the crib are preferably smaller than the dimensions of the foot.

Foot type information is also a manufacturing control data standardized in advance to match the manufacturing methods and tools used. Theoretically, there may be tens or even hundreds of leg types used, depending on how far the different leg types are to be exported, but the aforementioned statistical measurement data suggests that for most people the correct leg type can be determined in substantially less than ten, preferably 4-8, a foot type that describes the extent of the foot. Thus, for each dimension to be determined, there are certain tole-25 fringe limits within which the various dimensions of the foot are related to each other and based on which the appropriate foot type is determined. Further, by using 4 to 8 different foot types as a precursor, production control can be optimized for many

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in part, with regard to the tools and materials used, since the number of foot types will not be exaggerated.

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° 30 Thus, the basic formula of the footwear to be manufactured is obtained, for example, in mat rice, where one dimension is the most common size number and the other is di-v. 4 to 8 different foot types mentioned as mension. The basic formula is defined as a combination of these. In the basic formula of the footwear, the dimensions of the footwear then have certain values, which typically lie within the aforementioned tolerance limits. In the information system of the present invention, the actual measured dimensions of the feet can be further compared to the dimensions of the specified footwear and another 7 dimensional data describing the deviation of the measured foot from, for example, the average of said tolerance limits. Thus, it is still advantageously possible to check that the dimensions of the foot are within the tolerance limits, whereby the footwear is very likely to fit snugly on that foot. Similarly, if one of the tolerance-5 limits is exceeded, the suitability of another foot type for that foot may be investigated, or a specially designated shoe may be produced, which does not use ready-made foot type specifications.

In order to ensure the individual comfort requirements of each consumer, the foot measurement point is typically fitted with base shoes 10 in all sizes and sizes. By adjusting the fitting shoe indicated by the measurement specifications before the final leg type determination can be made, it is still possible to definitively confirm the success of the measurement and the interpretation of the borderline cases.

In this way, it is advantageous to obtain the necessary information on both feet of the customer 15, on the basis of which the footwear can be made to fit the customer's feet and the production control can be optimized to determine optimal production batches. Determining the type of foot is important for manufacturing control as it facilitates the determination of the right manufacturing tools, correctly dimensioned materials, and optimized manufacturing batch for the footwear to be manufactured. The information system associates the foot type information and foot dimensions defined on the customer's feet with the customer identification information and stores these in the customer database CDB. The foot type information and foot dimensions thus determined for the customer are pre-stored in the manufacturer's information system, whereby subsequent orders can advantageously ensure the manufacture and delivery of suitable footwear to the customer.

5 An essential advantage in terms of production which according to the invention

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This procedure achieves limiting the number of wearing leggings and leather formulas to a reasonably small amount while ensuring that most people can be provided with highly-fitting footwear. If for example. | why five different types of footwear are used, all offered in eight different footwear sizes (e.g., men's sizes 39-46), 40 different dresses are required. In contrast, with the use of soot, preferably only 40 different types of footwear, it is possible to produce o very well-fitting footwear for most men. All of these flaps are preferably ready for production, which contributes to the rapid turnaround of the order in production.

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The ODB database can be used to control and optimize footwear production. The order information includes not only the different features of the desired footwear model, but also information about the size and the finish of the footwear. Advantageously, the type of foot definition also allows new molding patterns to be added to the system, for example having different tip types according to fashion variations without having to re-measure the feet or even retrieve the foot measurement data from a customer database. At least certain footwear models can offer more, for example three different top countries, from which the customer can choose what they want. In this case, the last dress to be used is selected based on the desired shape, foot type and size 10. The upper and the lining of the footwear are cut with an automatic cutter, for which the leather skins are preferably sized to suit every size and foot type. In this case, it is possible to wait until a sufficient number of similar orders have accumulated in the order book before the order production begins. Advantageously, however, the waiting time cannot exceed a predetermined threshold value, but production of the order is always commenced before the threshold value is reached, thereby ensuring a sufficiently short delivery time for the customer. On the other hand, since the dimensions of the skin formulas are preferably configured to suit every size and foot type, at least the most popular footwear models and the most common foot type size combinations can be made ready to stock. Completed and paid orders are delivered to the customer in the manner chosen by the customer.

Many advantages are achieved in production thanks to the measurement data according to the invention. The greatest advantages are achieved in the base, where footwear with the same mold shape (e.g., the same toe shape, the same heel height) can be driven with the same tools without any adjustments to the settings. Because of the standardized production dimensions that are obtained directly from the order in the order database, it is possible to

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^ look specifically for each model. It should be noted that the type of footwear and the design of the footwear have a greater influence on the tools used.

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° 30 as the size of the footwear. Further advantages in production will also be obtained in the roughing and gluing steps prior to the primer, in which the portion of the skin formula bent on the base is first roughened to better adhere to the glue, and then the glue is applied. Both roughening and gluing occur on machines in which both the roughener and the glue roll substantially follow the outer edge of the sole of the shoe to be manufactured. Here too, it is advantageous to optimize production by passing the same footwear model through these steps in bulk 9. It can be noted that the process according to the invention enables the mass customization of footwear production, which can be made on the one hand to suit the customer's feet and on the other hand optimize production control so that the production batches correspond to mass production.

5 The type of foot and the dimensions of the foot guide the selection of the appropriate soap for the manufacture of the footwear. The information system comprises a Lest database LEST, which contains information about existing Lest models. The leg measurement data and foot type are compared to existing leggings and a suitable leggings are selected for the footwear to be manufactured. If no suitable molding is found in the mass-10 molding models, control data can be generated from the reference points comprised in the foot measurement data to lathe a suitable molding. This can also be used to produce footwear with extraordinary dimensions, where appropriate, without determining the foot dimensions in relation to normal sized footwear.

15 The information system also comprises a model database, MDB, which contains information on various footwear models. When a customer places an order, they typically browse in advance of the collection and make their decision on the shoe model they want. Depending on the footwear model, the customer can specify the base (eg rubber or leather sole), color, upholstery and lining material they want. In addition, for example, the customer's name may be printed on the bottom linings or affixed to a separate name tag. Some models may also have a customer's monogram on the outer lining. After the customer has specified the desired footwear and completed the order, the order data is stored in the order database ODB, which is located on the DBS database server. The order data is copied from the customer database CDB asi-25 acacia identification and foot measurement data.

The above is exemplified as an imaging tool with a three-dimensional foot scanner, which may be based, for example, on a low-power laser

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^ to perform electro-optical measurement. However, the imaging device used is not in itself essential for the implementation of the invention, only

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° 30 that it can determine the exact three - dimensional image of the measurand leg. Thus, for example, precise measurement of the foot can be done using methods for determining the volume of the foot, or imaging methods based on X-ray or other radiation, such as those used in medical imaging, for example. the functional elements may advantageously be implemented as a software, a March solution or a combination of the two. The dimensional data determination according to the invention is particularly well suited to be implemented as computer software comprising instructions in computer readable form for performing the functional steps of the invention. Preferably, the determination of the standardized dimensional information of the footwear of the preparation 5 from a three-dimensional computer image can be implemented as software code stored on a storage medium that can be executed on a computer-like device such as a personal computer (PC).

Such a computer program comprises at least programmatic code for receiving three-dimensional image information from an imaging device comprising a three-dimensional image of a foot, software code for determining for determining foot size data and foot type data from said first dimension data, which determines the foot profile profile relative to foot length, and a software code for determining standardized dimension data for said foot to fit to said foot data and foot size.

Figure 2 illustrates, by means of a simplified block diagram, the structure of an information system utilized in the invention. The customer's foot measurement is performed at the office-25 equipped with a 3-D foot scanner. Both feet of the customer are measured with the foot scanner SK, after which the information system programmed in the foot scanner calculates the reference points essential for the manufacture of the footwear 5 on both feet. The measurement data comprising the reference points is transferred from the foot scanner SK to the terminal terminal DT1, which may be, for example, a telecommunications network terminal or a PC connected to the size of the telecommunications network. The terminal DT1, preferably the registration device used therein application RA, associates leg measurement data with customer identification information, which may advantageously include customer information related to the information system;

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g username and password, customer name and other contact details required. Customer information may also be accompanied by identification of the office or foot scanner 00 35 for example for payment of commissions or for monitoring foot scanner functionality. Preferably, all of the terminals DT1, DT2, DT3, ... included in the information system are configured to establish a communication connection with the footwear manufacturer's database server DBS, which includes the aforementioned foot measurement data and customer identification data in the customer database CDB. The terminals DT may use the register 5 RA application either directly from the database server DBS over the communication link or the registration application RA may be stored on each terminal DT, whereby the registration application is arranged to store the foot measurement data and the client identification data directly in the client database CDB. Alternatively, the customer may have previously registered with the information system 10 either at a point in the system or by means of a terminal CT connected to a public communications network such as the Internet, whereby the customer identification information already exists. Also, the database server DBS preferably comprises the same client data registration application as the terminals at the offices, so that the client is able to register by connecting directly to the database server DBS. The order of entering the customer identification information and measuring the feet does not matter as such, since both data must be stored before the order is placed.

The database server DBS further preferably comprises a Lest database 20 LDB, which contains information about already existing Lest models. The customer's leg measurement data is compared to existing legroom models and the customer is selected for a tailor-made legroom model. If a suitable molding is not found in the existing mating patterns, control data can be generated from the reference points comprised in the foot measurement data for turning the molding into a suitable molding. Also, information about a suitable chip, whether existing or custom made, is also stored in the customer database CDB. All factual information is preferably stored directly in a database maintained by the manufacturer,

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whereby the customer identification and foot measurement data of a particular customer are not associated with a particular office and its own databases.

° 30 Once the required client | is stored in the CDB client database identification and foot measurement information, the desired footwear model can be selected and an order can be placed. The order can be made either through the subscription application OA handled by the terminal terminal DT, or by establishing a connection from the private telecommunication network terminal CT via the public telecommunication network to the database server DBS comprising the corresponding subscription application OA. The subscription application is started by entering the customer's username and password, after which the application retrieves the customer's foot type based on the username. If the shape of the customer's toes does not allow all types of flip flops, the system will only show the shoe designs from which the customer's shoes can be made. From the footwear presented to him, the customer chooses the ha-5 footwear model he created. The database server DBS preferably comprises a model database MDB which comprises information about different footwear models and which information can be browsed by the OA application. The model database MDB may also be stored at the office terminal DT and on a separate IS server providing a generic Internet service, where, for example, your company's home page 10 presents different footwear models and browsing the models does not require registration as a customer. This allows the customer to browse the collection in advance and make a decision on the desired footwear model. In addition, different footwear models may also be on display at the outlet. The customer can also choose to ship the finished footwear either directly to home 15 or to one of the system's outlets. From the on-demand application, the OA customer selects the desired features for the on-demand footwear, whereupon the price of the on-demand footwear is updated accordingly for the on-demand application to OA. After the customer has completed and accepted the specification of the desired footwear, determined the shipping method and selected the payment method, the ordering application OA stores the order in the ordering database ODB comprised by the DBS database server. The order data is copied from the customer database CDB customer identification and foot measurement data.

The information system of the invention achieves considerable advantages over the prior art solutions for both the customer and the shoe manufacturer. Once a customer's feet have been measured with a foot scanner and stored with customer identification information in the footwear manufacturer's database, the customer can order the footwear he wants, exactly to his footwear, regardless of time and place; it is sufficient that the customer has the means to establish a telecommunications connection with the manufacturer

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° 30 maintained by OA. In addition, there is no need for a customer or outlet it is okay to deposit any customer information or to keep a model of the dress, but for ordering new footwear, it is enough for a registered customer to have 00g of their username and password. The method according to the invention is particularly well suited to ordering individually tailored footwear, since typically the purchase of footwear can be accomplished, for example, on the basis of an image only, provided that there is assurance that the footwear is suitable in size and fit. Particularly in an adult, the dimensions of the foot do not change substantially over time, whereas, for example, any changes in the body make the application of the procedure of the invention, for example, considerably more difficult to make. Also, from the point of view of the footwear manufacturer 5, the reduction in tying according to the invention brings benefits to each retail store. The manufacturer has information on all of its customers, measurement data for these feet, and typically the shoe models and variations they want, all in one place, which facilitates production optimization. Customer confidence in the right footwear increases customer loyalty and, on the other hand, retail sales, at least in part, provide an opportunity to improve the manufacturer's margins.

It will be obvious to a person skilled in the art that as technology advances, the basic idea of the invention can be implemented in many different ways. The invention and its embodiments are thus not limited to the examples described above, but may vary within the scope of the claims.

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Claims (17)

A method for determining a foot measurement data needed for mass production of individually determined footwear, the method comprising the steps of: at least one foot is measured with a scanning means arranged to form a three-dimensional image of said foot; is determined from said image first measurement data for said foot, which first measurement data comprises at least the foot length measurement; is determined on the basis of said first measurement data size data and foot type data for said foot; is determined for a footwear that fits on said foot standardized measurement data for manufacture on the basis of said foot type data and the size data of the footwear, characterized by being determined from said image to first measurement data from predetermined reference points for said foot multiple circumferences; ooh, said foot type data is determined to relate it to the foot circumference profile based on said circumferential determined foot circumferential profile, and that the footwear manufacturer's data system comprises a read database which includes essential read models data to be used in manufacture, and further compares the standardized measurement data for footwear manufacture with read models included in said read database and alternatively - data on a suitable read model is stored in a customer database in response to the read database comprising a read model which fits said foot's measurement data or * 3- £ - controlled computer system to determine a new read model and store data ™ about the new read model in the customer database and read database in response to the fact that in CO 9 read database there is no read model that fits the foot measurement data, and the production batches of production are controlled on the basis of the read models 3. included in the orders . 2. A method according to claim 1, characterized in that said several circumferences of the foot are determined from reference points, the position of which is previously determined as a percentage ratio in relation to the unmeasured length of the foot for which a predetermined angle of measurement is determined in advance. the bottom of the foot. 3. A method according to claim 1 or 2, characterized in that the circumference of the foot is determined from at least ten different places. 4. A method according to any of the preceding claims, characterized in that several foot type data classes are determined in advance as a class parameter's limit values, which class parameter has been determined as the relative relationship of said first measurement data, a class parameter is calculated for said foot the relative relationship of said determined first measurement data is determined for said foot foot type data by comparing the value of said foot 10 class parameter with predetermined limit values for foot type data class class parameters. The method according to claim 4, characterized in that the determined by the predetermined foot type data classes is less than ten, preferably 4-8. 15 6. A method according to any of the preceding claims, characterized in that for said foot second measurement data is determined as differences of several first measurement data for said foot and for the footwear to be manufactured determined standardized corresponding measurement data; 20, the other measurement data are compared with the predetermined tolerance limits; and in response to exceeding at least a tolerance limit, the foot type data for said foot is again determined. 7. A method according to any of the preceding claims, characterized by storing said first measurement data for the foot, size data and foot type data together with the customer identification data in the customer database in the footwear manufacturer's computer system. 8. A measuring device for determining a foot measurement data needed for mass production of individually determined footwear, which measuring means comprises scanning means which are arranged to form a three-dimensional image of at least one foot, and a computer system, which is arranged to determine from said image first measurement data for said foot, which first measurement data comprises at least the foot measured in length; 35. determining on the basis of said first measurement data size data and foot type data for said foot; ooh - to determine for a footwear that fits on said foot standardized measurement data for manufacture on the basis of said foot type data and the size data of the footwear, characterized in that the computer system is additionally arranged - to determine from said image to the first measurement data from the predetermined reference foot of the foot for said foot several circumferentially measured; and - determining said foot type data so as to relate the foot circumferential scoped profile to the foot's longitudinal measurement, and that the measuring device is connected via a telecommunication connection to the footwear manufacturer's computer system, which includes a read database, including read mode data. to be used in manufacturing, and which computer system is arranged to compare the standardized measurement data for footwear manufacture with read models included in said read database and alternatively - to store data on a suitable read model in a customer database in response to the read database comprising a read database read model that fits the foot measurement data or - to control the computer system to determine a new read model and store data on the new read model in the customer database and read database in response to the read database not having a read model that fits the foot measurement data, and that control life the production sections of the bill on the basis of the read models included in the orders. Measuring device according to claim 8, characterized in that the computer system is arranged to determine said multiple circumferences for the foot from the reference points, the location of which is previously determined as a percentage relation in relation to the length measurement of the foot and for which has been determined in advance a measuring angle in relation to the C \ J ^ relation to the foot of the foot. ° 10. Measuring device according to claim 8 or 9, characterized in that the computer system is arranged | to determine the circumference of the foot from at least ten different places. Measurement device according to any of claims 8-10, characterized in that the computer system is arranged o to determine in advance several foot type data classes as a class parameter limit values, which class parameter has been determined as the relation of said first measurement data. calculate for that foot a class parameter value as the relative ratio of said determined first measurement data, and to determine for said foot foot type data by comparing the value of said foot class parameter with predetermined limit values for foot type data class parameters. Measuring device according to claim 11, characterized in that the predetermined foot type data classes are less than ten, preferably 4-8. 13. Measuring device according to any of claims 8-12, characterized in that the computer system is arranged to determine for said foot second measurement data as differences of several first measurement data for said foot and for the footwear to be manufactured determined standardized corresponding measurement data; comparing said second measurement data with the predetermined tolerance limits; and in response to exceeding at least a tolerance limit, determine foot type data for said foot again. Measurement device according to any of claims 8-13, characterized in that the computer system is arranged to store said first measurement data for the foot, size data and foot type data together with the customer identification data in the customer database in the footwear manufacturer's computer system. Measuring device according to any of claims 8-14, characterized in that said scanning means is a three-dimensional electro-optic scanner. 't 5 16. Measurement device according to any of claims 8-15, characterized in that the ° measuring device comprises a computer program arranged to ° receive three-dimensional image information of at least one foot from the scanning medium | Implement and make, on the basis of the image information, the determinants of a footwear that fits said foot for manufacture to form standardized measurement information. A computer program for determining a foot measurement data needed for mass production of individually determined footwear, which computer program comprises a programmed code for receiving three-dimensional image information from the scanning means, which three-dimensional image information comprises a three-dimensional image of the foot; a programmed code for determining first measurement data for said 5 feet from said image, said first measurement data comprising at least the foot length measured; a programmed code for determining said foot size data and foot type data on the basis of said first measurement data; a programmed code for determining standardized measurement data for a footwear that fits said foot for manufacture on the basis of said foot type data and footwear size data, characterized in that the computer program further comprises a programmed code for determining multiple circumferences measured from the reference frame of said foot from said foot for said foot to be connected to the first measurement data; and a programmed code for determining said foot type data so that it relates to the foot circumferential profile based on said foot circumference, and that the computer program is connected via a telecommunication connection to the footwear manufacturer's computer system, which includes a read which includes a read comprises essential data on read models to be used in manufacturing, and which computer system is arranged to compare the standardized measurement data for footwear manufacture with read models included in said read database and alternatively - to store data on the appropriate read model in a customer database in response to the read database comprises a read model that fits said foot's measurement data or 5. to control the computer system to determine a new read model and store C \ J ^ data on the new read model in the customer database and the read database in response to the fact that there is no read model in the read database that fits said foot s measuring co ° 30 data, and | to control the production batches of the production on the basis of the reading models included in the orders. 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