KR100779109B1 - Creating method of rfid code - Google Patents

Abstract

A method for generating RFID codes is provided to generate flexible and various codes for actively accepting various requests from code users and various sizes of a memory device. A method for generating RFID codes comprises the following several steps. 1 or 2 is inputted in n which is the number of identification codes(S20). In case that 1 is inputted in the n, the RFID code is composed of the first discriminator and the first identification code, and values for determining a length of the first discriminator and the first identification code are inputted within a range of L which is an overall code length(S30). The length of the first discriminator is determined on the basis of the inputted value for the length of the first discriminator, the length of the first identification code is determined on the basis of the inputted value for the length of the first identification code, the RFID code whose length is L is generated on the basis of the length of the first discriminator and the first identification code, the value for determining the length of the first identification code is encoded in the first discriminator and an identifier is encoded in the first identification code(S40).

Description

Creating method of RFID code

1 is a structural diagram of a conventional mobile RFID code system

2 is a structure diagram of a conventional general EPC code system

3 is a flowchart illustrating a method of generating an RFID code according to an embodiment of the present invention.

4 or 5 is a code structure diagram generated by the RFID code generation method of FIG.

6 is an exemplary diagram of adding an additional code to the code structure generated by the RFID code generation method of FIG.

7 is a flowchart illustrating a method for generating an RFID code according to another embodiment of the present invention.

8 is a code structure diagram generated by the RFID code generation method of FIG.

9 is an exemplary view of adding an additional code to the code structure generated by the RFID code generation method of FIG.

* Description of the main drawing codes *

10: first identifier 20: first identification code

30: second identification code 40: third identification code

50: count indicator field 60: identification code count field

70: second separator 80: third separator

90: nth separator 100: fourth identification code

110: fifth identification code 120: n + 2 identification code

130: n + 3 identification code

The present invention relates to a method for generating an RFID code, and more particularly, a variable code length L including a number indicator field, an identification code number field, and an arbitrary number n to include n-1 delimiters and n identification codes. The present invention relates to an RFID code generating method in which various codes are generated by having at least one of the n-1 separators and the n identification codes by a code system formed by the code system.

1 is a code structure diagram of a conventional mini-mCode, mCode, micro-mCode, wherein the mCode is a basic code system for a mobile RFID service and micro-mCode is a small size code system, such as a two-dimensional barcode 32 bit code system for acceptance. mini-mCode is a code system designed for application to small tag memory sizes.

In the three code structures, mini-mCode (100), which is a mobile RFID code system for an RFID tag supporting a small memory, has a length of 32 bits, and four classes exist. An 8-bit TLC is assigned to the highest authority. 00 _H and F0 _H through FF _H are reserved for special purposes and extensions. The class of 2 bits is used to assign codes of various structures in consideration of the size of the sub-organization and the number of contents when the top-level institution assigned the TLC assigns the code to the sub-organization. CC (Company Code), ICC (Item Category Code), IC (Item Code) and SC (Serial Code) have different lengths and configurations depending on the class.

MCode 200, a mobile mobile RFID dedicated code system, is assigned a 12-bit Top Level Code (TLC) to the highest authority. 000 _H and F00 _H through FFF _H are reserved for special purposes and extensions. Class of 4 bits is used for assigning codes of various structures in consideration of the size of the subsidiary and the number of contents when the top organization assigned the TLC assigns the codes to the subordinate organization. CC (Company Code), ICC (Item Category Code), IC (Item Code) and SC (Serial Code) have different lengths and configurations depending on the class.
32-bit mobile RFID code system micro-mCode (300) can be used for services that require a small code size, such as a two-dimensional bar code currently in service, or services directly managed by network operators. The 3-bit TLC is allocated to the top-level organization, and the 29-bit code is directly assigned and used by the top-level organization to which TLC has been assigned.

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Figure 2 is a conventional EPC code structure diagram, the EPC code structure diagram is GID-96, SGTIN-96, SGTIN-198, SSCC-96, SGLN-96, GRAI-96, GRAI-170, GIAI-96, GIAI It consists of 10 such as -202 and DoD-96, and the number has a slightly different structure according to the header value. In addition, like the mobile RFID code system, the EPC code system is also reserved a part of the header for special purposes and future expansion. In the EPC scheme, identifiers of the same name or different lengths differ only in the length of the serial number and the rest of the structure is the same. For example, SGTIN-198 has the same structure as SGTIN-96 but has a serial number as long as 102 bits (198-96).

This article describes the characteristics of the Serialized Global Trade Identification Number (SGTIN) code system among various EPC code systems. It is a proposed code system for assigning unique identifiers to individual objects based on GTIN codes established in EAN.UCC. The existing GTIN code system can only identify the type of object, so it is not suitable for RFID object identification. Therefore, a serialized GTIN, or SGTIN, has been proposed by combining GTINs with unique serial numbers to identify one physical entity individually. It is divided into SGTIN-64, SGTIN-96 and SGTIN-198 according to the length of EPC. SGTIN-96 (500) is typically composed of a header, a filter value, a partition, a company prefix, an item reference, and a serial number. The maximum expression range and maximum expression number of Company Prefix, Item Reference are changed by the partition field.

In order for the above code structure to be encoded (written) in a memory, mCode 200 requires 192 bits, micro-mCode 300 requires 128 bits, and mini-mCode 100 requires 128 bits of memory. Of these, 128 bits of memory are required for SGTIN-96 to be encoded. Moreover, larger sizes of code require more memory to be encoded.

In the conventional technology, an RFID code system for an RFID service typically includes an ISO / IEC 15459 code, a mobile RFID code, an EPC (Electronic Product Code), and the like. The RFID code undergoes an encoding process in order to be stored in an RFID tag, and undergoes a decoding process when read by an RFID reader. Conventional code systems such as ISO / IEC 15459 codes, mobile RFID codes, and EPC (Electronic Product Code) have a fixed length of code, although there are areas reserved for future expansion. Since it should be used only within the structure and length presented, there is a problem that various requirements of the user cannot be satisfied.

In addition, to identify an object or content, an RFID code is encoded (written) on a very small RFID tag and an encoded RFID tag is attached to the object. The RFID code encoded (written) on the RFID tag is recognized by the RFID reader through decoding (reading) using radio frequency. The RFID tag should have a memory structure defined in the standard to provide RFID code information and object information to the RFID reader.

In addition, the production of low-cost RFID tags is very important because the price of the RFID tag is very important for the service utilizing the RFID technology to be activated. Since the price of such an RFID tag is greatly affected by the memory size of the RFID tag, it is very difficult to develop an RFID tag having a sufficient size of memory. In order to encode an RFID code into an RFID tag having such a small size of memory, a small size of the RFID code system is required, and due to advances in RFID technology, the price of the RFID tag becomes low and the memory size is sufficient to meet various requirements of users. In a larger environment, there is a problem that the necessity of RFID code systems of various sizes is increased.

In particular, the currently used code system cannot actively cope with such RFID code system having various sizes, user's request, and RFID tag memory size change. This poses a problem to the spread of RFID technology in various industries.

Accordingly, the present invention has been made to solve the above problems, the present invention is the overall length of the code, delimiter and identification code in the code system to generate a flexible code for actively accommodate the user's requirements and memory of various sizes An object of the present invention is to provide a method of generating an RFID code having various lengths and structures.

RFID code generation method according to an embodiment of the present invention for achieving the above object, consisting of a delimiter and n identification codes, the character according to the code system formed of a variable overall code length L having a natural number greater than 2 And a method of generating an RFID code by encoding a string of symbols such as numbers into a memory, the method comprising: inputting 1 or 2 to n; In the step of inputting 1 or 2 to n, when 1 is input to n, the delimiter and the n identification codes are converted into the first delimiter and the first identification code within the variable code total length L. A length value for determining the length of the first separator and a length value for determining the length of the first identification code; And a length of the first identifier is determined by a length value of the first separator input to the first separator, and a length of the first identification code is determined by a length value of the first identification code input to the first separator. A code having a code length of L is generated according to the determined length of the first delimiter and the length of the first identification code, and a length value determining the length of the first identification code is encoded in the first delimiter of the generated code. And encoding the identifier in the first identification code having the determined length.

According to an embodiment of the present invention, in the step of inputting 1 or 2 to n, when 2 is input to n, the delimiter and the n identification codes are within the range of the variable code total length L. Comprising a first identifier, a second identification code and a third identification code, the length value for determining the length of the first identifier and the length value for determining the length of the second identification code is input; And a length of the first separator is determined by the length value of the first separator input to the first separator, and a length of the second identification code is determined by the length value of the second identification code input to the first separator. The remaining length obtained by subtracting the length of the first identifier and the length of the second identification code from the total code length L is determined as the length of the third identification code, and the length of the determined first identifier and the second identification code and the third identification are determined. A code having a code length of L is generated according to the length of the code, and the first identifier of the generated code is encoded with a length value that determines the length of the second identification code, and the length of the second identification code and the third identification is determined. Each code further comprises the step of encoding the identifier.

According to an embodiment of the present invention, in the case where the additional code is inserted in the code system and the entire code length is extended, after the identifier is encoded in the first identification code whose length is determined, the first delimiter The additional code is inserted into either one of the identification code before or after the identification code, and the additional code further comprises the step of encoding an identifier.

According to an embodiment of the present invention, in the case where the additional code is inserted in the code system and the entire code length is extended, after the identifier is encoded in each of the second and third identification codes whose length is determined, The additional code may be inserted at any one of the first identifier, the second identification code, and the third identification code before or after the identification code. The additional code may further include encoding an identifier.

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According to an embodiment of the present invention, the identifier may be any one of a combination of letters, numbers, symbols, bits, bytes, byte bundles, character bundles, symbol bundles, and combinations of letters / symbols / numbers / bits / bytes. It is characterized by that.

According to an embodiment of the present invention, the first delimiter is any one of a combination of letters, numbers, symbols, bits, bytes, byte bundles, character bundles, symbol bundles, combinations of characters / symbols / numbers / bits / bytes. Characterized in one form or set table value.

RFID code generation method according to another embodiment of the present invention, consisting of a number indicator field, the number of identification code field, n-1 separator, n identification codes, variable code length L having a natural number greater than 2n + 1 An RFID code generation method in which various codes are generated by encoding a character string such as letters and numbers into a memory according to a code system formed by the method, comprising: inputting a natural number of 3 or more into n and a natural number of 3 or more into n If input, the number indicator field, the identification code number field, n-1 delimiters from the second delimiter to the nth delimiter within the range of the variable code total length L and the n + 3 identification from the fourth identification code It consists of n identification codes up to a code, a length value for determining the length of the count indicator field is input, and a length value for determining the length of the identification code number field is entered. A length value for determining a length of a separator suitable for each separator from the second separator to the nth separator, and a fourth to n + 2 identification codes corresponding to sequentially from the second separator to the nth separator, respectively. Inputting a length value for determining a length corresponding to an identification code of the code; And a length indicator field length is determined by the input length indicator field length value, and a length value of the identification code number field is determined by the length value of the identification code number field, respectively, from the second delimiter to the nth delimiter. The fourth identification inputted according to the length value corresponding to the delimiter of to determine the length of each delimiter from the second delimiter to the nth delimiter and sequentially correspond to each delimiter from the second delimiter to the nth delimiter The length of each identification code from the fourth identification code to the n + 2 identification code is determined by the length value corresponding to each identification code from the code to the n + 2 identification code, and at the code length L The length of the count indicator field, the length of the identification code number field, the length from the second separator to the nth separator, from the fourth identification code The remaining length minus the length up to the n + 2 identification code is determined as the length of the n + 3 identification code, and the determined length indicator field length, the identification code number field length, and each length from the second delimiter to the nth delimiter are determined. And a code system having a length of L is generated according to each length from the fourth identification code to the n + 3 identification codes, and a value indicating the presence of an identification code number field is encoded in the number indicator field of the generated code. And a value representing the number from the fourth identification code to the n + 3 identification code is encoded in the identification code number field, and each identifier from the second delimiter to the nth delimiter whose length is determined has a fourth identification code from the fourth identification code. The length value which determines the length of each identification code up to an n + 2 identification code is encoded, and each of the length from the determined fourth identification code to the n + 3 identification code Identification code, characterized by comprising a step in which the identifier is encoded.

According to another embodiment of the present invention, when an additional code is inserted in the code system so that the entire code length is extended, each identification code from the determined fourth identification code to the n + 3th identification code is identified. After the step of encoding, the additional code is located at any one of the number indicator field, the identification code number field, the second delimiter to the nth delimiter and the fourth and the fourth identification code before or after the n + 3 identification code. Inserted, the additional code is characterized in that it further comprises the step of encoding the identifier.

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According to another embodiment of the present invention, the identifier and the identification code number field is a combination of letters, numbers, symbols, bits, bytes, byte bundles, character bundles, symbol bundles, characters / symbols / numbers / bits / bytes. It is characterized in that any one of the form of the bundle.

According to another embodiment of the present invention, each delimiter from the second delimiter to the nth delimiter is a letter, number, symbol, bit, byte, byte pack, character pack, symbol pack, character / symbol / number / bit It is characterized in that it is one of a set of combinations of / bytes or a set table value.

According to another embodiment of the present invention, the count indicator field is a combination of letters, numbers, symbols, bits, bytes, byte packs, character packs, symbol packs, a combination of letters / symbols / numbers / bits / bytes. In one embodiment, the second delimiter to the n-th delimiter is a value reserved for each delimiter.

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Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a flowchart illustrating a method for generating an RFID code according to an embodiment of the present invention, wherein the method for generating an RFID code according to an embodiment of the present invention has a variable code length L including one separator and n identification codes. The present invention relates to an RFID code generating method in which various codes are generated by having at least one of the one separator and the n identification codes by a code system formed.
Therefore, the RFID code generation method according to an embodiment of the present invention in more detail consists of the following steps.

RFID code generation method in which various codes are generated by encoding symbol strings such as letters and numbers into memory according to the code system consisting of a delimiter and n identification codes and having a variable total length L having a natural number greater than 2 In; 1 or 2 is input to the n (S20); When 1 is input to n in step S20 of inputting 1 or 2 to n, the delimiter and the n identification codes are identified by the first delimiter and the first identifier within a range of the variable code total length L. Comprising a code, the step of inputting the length value for determining the length of the first identifier and the length value for determining the length of the first identification code (S30); And a length of the first identifier is determined by the length value of the first separator, and a length of the first identification code is determined by the length value of the first identification code input to the first separator. A code having a code length of L is generated by the length and the length of the first identification code. The first identifier of the generated code is encoded with a length value that determines the length of the first identification code, and the length of the first identification code is determined. In step S40, an identifier is encoded.

Further, in the case where the additional code is inserted in the code system so that the entire code length is extended, after the step (S40) of encoding the identifier in the first identification code whose length is determined, the first delimiter, The additional code is inserted at either before or after the additional code, and the additional code further comprises a step S70 of encoding an identifier.

In addition, when 2 is input to n in the step S20 of inputting 1 or 2 to n, the delimiter and the n identification codes may be divided into a first delimiter and a second identifier within a range of the variable overall code length L. An identification code and a third identification code, wherein a length value for determining the length of the first identifier and a length value for determining the length of the second identification code are input (S50); And a length of the first separator is determined by the length value of the first separator, and a length of the second identification code is determined by the length value of the second identification code. 2 The remaining length after subtracting the length of the identification code is determined as the length of the third identification code, and the code having a length of L is determined by the length of the first identifier and the length of the second identification code and the third identification code. And generating a length value for determining a length of a second identification code in the first identifier of the generated code, and encoding an identifier in each of the second identification code and the third identification code for which the length is determined (S60). It is made to include.
Further, in the case where the additional code is inserted in the code system so that the entire code length is extended, after the step (S60) of encoding the identifier into each of the second and third identification codes whose length is determined, the first delimiter Wherein, the additional code is inserted into any one of before or after the second identification code and the third identification code, the additional code further comprises the step of encoding the identifier (S70).

Therefore, each step will be described in detail as follows.
In the RFID code generating method according to the present invention, a code system is formed of a variable code length L having a natural number greater than 2 and consisting of a delimiter and n identification codes.
That is, as shown in FIG. 4, the code structure includes one separator and one identification code, or the code structure includes one separator and two identification codes as shown in FIG. 5.

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Length of code L = length of separator + length of x identification codes

Provided that n is 1 or 2.
Therefore, in the code structure, a code structure having one separator and one or two identification codes is constructed at the rear of the separator.
Step 1 where 2 or 1 is input to n is as follows.
First, 1 or 2 is input to n according to the above code system.

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In the case where 1 is input to n, the delimiter and the n identification codes are composed of a first delimiter and a first identification code within a range of the variable code total length L, and the length of the first delimiter is determined. Step S30 of inputting the length value and the length value for determining the length of the first identification code is as follows.

First, as shown in the code structure diagram generated by the RFID code generation method of FIG. 4, a code structure having a variable code length L has a total code length because only two fields exist as a delimiter and one identification code. L-the length of the first identifier-has the condition that the length of the first identification code must be zero.
When 1 is input to n under the condition that L-the length of the first separator-the length of the first identification code is 0, the code system includes a first separator 10 and a first identification code 20.
In addition, the length value of the first separator for determining the length of the first separator 10 and the length value of the first identification code for determining the length of the first identification code 20 are input.

The length of the first delimiter 10 is determined by the length value of the first delimiter, and the length of the first identification code 20 is determined by the length value of the first identification code, and the determined first delimiter 10 is determined. A code having a code length of L is generated based on the length of the code) and the length of the first identification code 20. A length value for determining the length of the first identification code is encoded in the first delimiter of the generated code. In step S40, the identifier is encoded in the determined first identification code.
That is, when the length value of the first identification code is input and encoded in the first delimiter 10, the length of the first identification code 20 is secured by the length value of the input identification code, and the first identification is secured. An identifier, that is, an item number, is encoded in the code 20.
The item number, which is the identifier, may be in the form of a combination of letters, numbers, symbols, bits, bytes, bit bundles, byte bundles, character bundles, number bundles, symbol bundles, a combination of letters / numbers / symbols / bits / bytes, and the like. Is preferably encoded as.
When 2 is input to n in step S20 of inputting 1 or 2 to n, the delimiter and the n identification codes are identified by the first delimiter and the second identifier within a range of the variable code total length L. Comprising a code and a third identification code, the step of inputting the length value for determining the length of the first identifier and the length of the second identification code to the first delimiter (S50) is as follows.
First, as shown in the code structure diagram generated by the RFID code generation method of FIG. 5, in the code structure having the variable code total length L, since there are three fields in total, there are three fields, a delimiter and two identification codes. Length L-the length of the first identifier-has a condition that the length of the second identification code is greater than zero.
Under the condition that L-the first separator length-the length of the second identification code is greater than 0, if 2 is input to the code system, the code system is the first identifier 10, the second identification code 30 and the third identification code. It consists of two identification codes including 40.
In addition, the length value of the first separator for determining the length of the first separator 10 and the length value of the second identification code for determining the length of the second identification code 30 are input.
The length of the first identifier 10 is determined by the length value of the first identifier, and the length of the second identification code 30 is determined by the length value of the second identification code.
The length of the third identification code 40 is determined as the remaining length after subtracting the length of the first delimiter 10 and the length of the second identification code 30 from the total length L of the code.
Therefore, a code having a total code length of L is generated based on the determined length of the first delimiter 10 and the lengths of the second identification code 30 and the third identification code 40.
A length value determining the length of the second identification code is encoded in the first delimiter of the generated code, and an identifier is encoded in each of the second identification code and the third identification code in which the length is determined (S60). .
When the length value of the second identification code 30 is input and encoded in the first delimiter 10, the length of the second identification code 30 is secured by the length value of the input identification code.
Therefore, the code length of the third identification code 40 is determined by the following expression.
That is, the length of the third identification code = the total length of the code L-the length of the first identifier-the length of the second identification code.
An identifier, that is, an item number, is encoded in the secured second identification code 30, and an identifier, that is, a serial number, is encoded in the third identification code 40.
In addition, the identifier item number or serial number is a bundle consisting of a combination of letters, numbers, symbols, bits, bytes, bit bundles, byte bundles, character bundles, number bundles, symbol bundles, character / number / symbols / bits / bytes. It is preferable to encode in such a form.
That is, assuming that the item number is a pencil, the serial number is each unique number for a plurality of pencils.
Further, in the case where the additional code is inserted in the code system so that the entire code length is extended, after the step (S40) of encoding the identifier in the first identification code whose length is determined, the first delimiter, Wherein the additional code is inserted in any one of the before or after, and the identifier is encoded in the additional code (S70) is as follows.
According to the present invention, when the additional code is inserted to extend the total code length, the code full length L is as follows.
That is, the total code length L = first separator length + n identification code lengths + m additional code lengths.
Provided that n is 1 or 2, and m is a natural number.
When 1 is input to n of the identification code, there may be m additional codes as shown in the example of adding additional codes to the code structure generated by the RFID code generation method of FIG. 6.
Therefore, the delimiter of FIG. 6 becomes the first delimiter 10, and the identification code becomes the first identification code 20 so that either the first delimiter 10 or the first or the first identification code 20 is before or after. The additional code is inserted therein to secure the extra code length.
For example, when a code for a pencil is to be generated, an additional code generated in front of the first delimiter 10 may be encoded with an institution number, such as a manufacturer, and after the first delimiter 10, such as stationery. The category may be encoded, and additional identification information may be encoded after the first identification code 20.
On the other hand, the method of inserting the additional code as described above, the same applies to the code system consisting of one separator and two identification codes.
That is, when an additional code is inserted in the code system and the entire code length is extended, after the step S60 of encoding the identifier into each of the second identification code and the third identification code whose length is determined, the first delimiter Wherein, the additional code is inserted into any one of before or after the second identification code and the third identification code, the step of encoding the identifier in the additional code (S70) is as follows.
According to the present invention, when the additional code is inserted to extend the total code length, the code full length L is as follows.
That is, the total code length L = first separator length + n identification code lengths + m additional code lengths.
Provided that n is 1 or 2, and m is a natural number.
When 2 is input to n, as shown in the example of adding additional codes to the code structure generated by the RFID code generation method of FIG. 6, there may be m additional codes.
Therefore, the delimiter of FIG. 6 becomes the first delimiter 10, and the identification code is composed of the second identification code 30 and the third identification code 40, so that the first delimiter 10 and the second identification code ( 30) and the additional code is inserted at either the front or the rear of the third identification code 40 to secure an extra code length.
In addition, the first delimiter 10 may be any one type or set of a combination of a letter, a number, a symbol, a bit, a byte, a byte bundle, a character bundle, a symbol bundle, a character / symbol / number / bit / byte combination. Expressed as a table value, the length of the identification code is encoded.

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Typically, the set table is shown in [Table 1].

TABLE 1

Separator 0 One - 9 A B C D E F G syncopation Z Identification code length Reserve for the future One 2 3 4 5 6 7 26

7 is a flowchart illustrating a method for generating an RFID code according to another embodiment of the present invention. In the RFID code generating method according to another embodiment of the present invention, a number indicator field, an identification code number field, and an arbitrary number n are inputted. RFID, in which various codes are generated by having at least one of the n-1 delimiters and the n identification codes by a code system formed of a variable code length L including n-1 delimiters and n identification codes The code generation method.
Therefore, in more detail, the RFID code generation method according to another embodiment of the present invention comprises the following steps.

Symbol strings such as letters and numbers are stored according to the code system which consists of variable indicator field, identification code number field, n-1 separators, n identification codes, and variable code length L having a natural number greater than 2n + 1. An RFID code generating method in which various codes are generated by encoding at the step of inputting a natural number of 3 or more into n (S110); In the case where a natural number of 3 or more is input to n, a number indicator field, an identification code number field, n-1 delimiters from the second delimiter to the nth delimiter, and a fourth identification within the range of the variable code total length L A length value for determining the length of the count indicator field is input and a length value for determining the length of the identification code number field is input. A length value for determining a delimiter length suitable for each delimiter from the second delimiter to the nth delimiter, and a fourth identification code from the second delimiter to the nth delimiter sequentially from the fourth to the n + 2 decodes, respectively. Inputting a length value for determining a corresponding length (S120); And a length indicator field length is determined by the input length indicator field length value, and a length value of the identification code number field is determined by the length value of the identification code number field, respectively, from the second delimiter to the nth delimiter. The fourth identification inputted according to the length value corresponding to the delimiter of to determine the length of each delimiter from the second delimiter to the nth delimiter and sequentially correspond to each delimiter from the second delimiter to the nth delimiter The length of each identification code from the fourth identification code to the n + 2 identification code is determined by the length value corresponding to each identification code from the code to the n + 2 identification code, and at the code length L The length of the count indicator field, the length of the identification code number field, the length from the second separator to the nth separator, from the fourth identification code The remaining length minus the length up to the n + 2 identification code is determined as the length of the n + 3 identification code, and the determined length indicator field length, the identification code number field length, and each length from the second delimiter to the nth delimiter are determined. And a code system having a length of L is generated according to each length from the fourth identification code to the n + 3 identification codes, and a value indicating the presence of an identification code number field is encoded in the number indicator field of the generated code. And a value representing the number from the fourth identification code to the n + 3 identification code is encoded in the identification code number field, and each identifier from the second delimiter to the nth delimiter whose length is determined has a fourth identification code from the fourth identification code. The length value which determines the length of each identification code up to an n + 2 identification code is encoded, and each of the length from the determined fourth identification code to the n + 3 identification code Identification code, a step (S130) that the identifier is encoded.

Further, when the additional code is inserted in the code system so that the entire code length is extended, an identifier is encoded in each identification code from the determined fourth identification code to the n + 3th identification code (S130). The additional code is inserted into any one of the number indicator field, the identification code number field, the second delimiter to the nth delimiter, and the fourth identification code to either before or after the n + 3 identification code. The code further comprises the step S140 of encoding the identifier.
Therefore, each step will be described in detail with reference to the accompanying drawings.
The code system in the RFID code generation method according to the present invention comprises a number indicator field, an identification code number field, n-1 separators and n identification codes, and has a variable overall length L having a natural number greater than 2n + 1. Is formed.
That is, as shown in the code structure diagram generated by the RFID code generation method of FIG. 8, n-1 separators consisting of the number indicator field, the identification code number field, the second delimiter and the nth delimiter, and the fourth identification code It has a code structure consisting of n identification codes consisting of the n + 3 identification code.

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That is, the total length of the code L = the length of the number indicator field + the length of the number of identification code fields + n-1 separators + the length of n identification codes.

However, n is a natural number of 3 or more.

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Therefore, in the code structure, an identification code number field is located at the rear of the number indicator field, n-1 identifiers are positioned at the rear of the identification code number field, and a code structure having n identification codes at the rear of the plurality of separators is constructed. .
A step S110 of inputting a natural number of 3 or more into n is as follows.
First, a natural number of 3 or more is input to n according to the code system described above.
In the case where a natural number of 3 or more is input to n, a number indicator field, an identification code number field, n-1 delimiters from the second delimiter to the nth delimiter, and a fourth identification within the range of the variable code total length L A code is composed of n identification codes from an n + 3 identification code, and a length value for determining a length of a number indicator field is input to the number indicator field, and a length of an identification code number field is determined for the identification code number field. A length value is input, the length value for determining a separator length suitable for each separator from the second separator to the nth separator and the fourth identification code corresponding to the fourth identifier code sequentially from the second separator to the nth separator. Step 2 of inputting the length value for determining the length corresponding to each identification code up to two identification codes (S120) is as follows.
First, as shown in the code structure diagram generated by the RFID code generation method of FIG. 8, a code structure having a variable total code length L includes a number indicator field, an identification code number field, n-1 delimiters, and n pieces. Since there are a total of 2n + 1 fields for the identification code, the total length of the code L-the length of the number indicator field-the length of the number of identification code fields-the length of (n-1) separators-the length of (n-1) identification codes Has a condition that is greater than zero.
The total length L of the code length field, the length of the number indicator field, the length of the number of identification code fields, the length of (n-1) separators, and the length of (n-1) identification codes of n-1 separators and When three or more natural numbers are input to n of the n identification codes, the code system is n-1 consisting of the number indicator field 50, the identification code number field 60, and the second delimiter 70 from the nth delimiter 90. It consists of n identification codes consisting of n delimiters and the fourth identification code (100) n + 3 identification code (130).
In addition, the length value for determining the length of the second delimiter 70 and the length value for determining the length of the fourth identification code 100 are input after the length value of the count indicator field and the identification code number field length value are input. do.
In the same manner as described above, the length value and the fifth identification code 110 for determining the length of each separator from the third separator 80 located after the second separator 70 to the n-th separator 90 are determined. Repeats n-1 times the length value for determining the length of each identification code from n + 2 identification code 120 to input.

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Finally, the length of the number indicator field is determined by the length value of the input number indicator field, and the length of the identification code number field is determined by the length value of the identification code number field, from the second delimiter to the nth delimiter. The fourth inputted to determine the length of each separator from the second separator to the nth separator according to the length value corresponding to each separator and sequentially corresponding to each separator from the second separator to the nth separator; The length of each identification code from the fourth identification code to the n + 2 identification codes is determined by the length value corresponding to each identification code from the identification code to the n + 2 identification code, and the total code length L The length of the number indicator field, the length of the identification code number field, the length from the second separator to the nth separator, the fourth identification The remaining length minus the length from the code to the n + 2 identification code is determined as the length of the n + 3 identification code, and the determined number indicator field length, the identification code number field length, and the second delimiter to the nth delimiter, respectively. A code having a length of L is generated according to the length of the code and each length from the fourth identification code to the n + 3th identification code, and a value indicating the presence of the identification code number field in the number indicator field of the generated code. Is encoded and a value representing the number from the fourth identification code to the n + 3 identification code is encoded in the identification code number field, and each identifier from the determined second delimiter to the nth delimiter has a fourth identification. The length value that determines the length of each identification code from the code to the n + 2th identification code is encoded, and the fourth identification code from the determined fourth length to the n + 3th identification code. If each identification code includes a step (S130) that the identifier is encoded as follows.
That is, the first delimiter corresponds to the first identification code, the second delimiter corresponds to the second identification code, and the n-1 delimiter corresponds to the identification code corresponding to the n-1 th identification code. The length of the identification code is determined by passing a value.
Accordingly, as shown in the code structure diagram generated by the RFID code generation method of FIG. 8, the second delimiter 70 corresponds to the fourth identification code 100, and the third delimiter 80 corresponds to the fifth identification code. Corresponding to 110, the n-th identifier 90 corresponds to the n + 2 < th > identification code 120 by the same method.
On the other hand, the length of each of the n-1 identification code is input and encoded in each of the n-1 separator, the length of each of the n-1 identification code by the length of each of the input n-1 identification code Secured.
That is, as shown in the code structure diagram of FIG. 8, the length of the fourth identification code 100 is determined by the length value of the fourth identification code 100 input to the second identifier 70 and the third identifier ( The process of determining the length of the fifth identification code 110 by the length value of the fifth identification code 110 inputted to 80 is performed up to the nth separator.
Therefore, the code length of the n + 3 identification code 130 is determined by the following equation.
That is, the length of the n + 3 identification code = the total length of the code L-the length of the number indicator field-the length of the identification code number field-the length of n-1 separators from the second separator to the n-th separator-from the fourth identification code N-1 identification code lengths up to an n + 2 identification code.
Letters, numbers, symbols, bits, bytes, byte bundles, character bundles, symbol bundles, and characters / in each of the n identification codes from the secured fourth identification code to the n + 3th identification code (100 to 130). It is preferable to encode in any form of a bundle of a combination of symbols / numbers / bits / bytes.
In addition, each of the n-1 delimiters from the second delimiter to the nth delimiter (70 to 90) includes letters, numbers, symbols, bits, bytes, byte bundles, character bundles, symbol bundles, characters / symbols / numbers / The length of the identification code is encoded as either a set of bit / byte combinations or a set table value.
In addition, the identification code number field 60 may be any one of a combination of letters, numbers, symbols, bits, bytes, byte bundles, character bundles, symbol bundles, character / symbol / number / bit / byte combinations, or It is expressed as a set table value and used as a value to determine the number of identification codes.
Furthermore, the count indicator field 50 may be a combination of letters, numbers, symbols, bits, bytes, byte bundles, character bundles, symbol bundles, and combinations of letters / symbols / numbers / bits / bytes. The reserved value in each delimiter from the second delimiter to the nth delimiter is used to decode (read) the RFID code generated according to the present invention. For example, any of 0-9 in the above [Table 1] can be adopted and used.

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In addition, in the case where the additional code is inserted in the code system and the entire code length is extended, an identifier is encoded in each of the identification codes from the determined fourth identification code to the n + 3th identification code (S130). The additional code is inserted into any one of the number indicator field, the identification code number field, each of the second to nth separators, and before or after each of the fourth to n + 3th identification codes. In step S140, an identifier is encoded in the additional code.
According to the present invention, when the additional code is inserted to extend the length of the entire code, the total code length L is as follows.
That is, the total code length L = the length of the number indicator field + the length of the number of identification code fields + the length of n-1 separators + the length of n identification codes + the length of m additional codes.

However, n is a natural number of 3 or more, and m is a natural number.

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As the additional code is illustrated in the example of adding the additional code to the code structure generated by the RFID code generation method of FIG. 9, there may be m additional codes.

As shown in FIG. 9, the count instruction is before or after the field, before or after the identification code number field, before or after each of the second to nth delimiters, and n + 3 to each of the n + 3 identification codes. Inserted at either the front or the back of the to ensure extra code length.

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Although the present invention has been described in detail so far, it should be apparent that the embodiments mentioned in the process are only illustrative, and not restrictive, and the present invention is provided by the following claims. Within the scope not departing from the scope of the present invention, changes in the components that can be coped evenly will fall within the scope of the invention.

As described above, by varying the length and structure of the variable overall code length, delimiter and identification code by the RFID code generation method of the present invention for actively accommodating various requirements of the code user and memory of various sizes It is flexible and produces various codes.

Claims (14)

RFID code generation method in which various codes are generated by encoding symbol strings such as letters and numbers into memory according to the code system consisting of a delimiter and n identification codes and having a variable total length L having a natural number greater than 2 In 1 or 2 is input to the n, In the case where 1 is input to n, the delimiter and the n identification codes are composed of a first delimiter and a first identification code within a range of the total code length L, and a length value for determining the length of the first delimiter. And a length value for determining the length of the first identification code, and The length of the first separator is determined by the input length value of the first separator, and the length of the first identification code is determined by the length value of the input first identification code, and the length of the first separator is determined. A code having a code length of L is generated according to the length of the first identification code, and a length value for determining the length of the first identification code is encoded in the first identifier of the generated code, and an identifier is assigned to the first identification code for which the length is determined. RFID code generation method comprising the step of encoding. The method of claim 1, wherein in step 1 or 2 is input to n, When 2 is input to n, the delimiter and n identification codes are composed of a first delimiter, a second identification code, and a third identification code within a range of the total code length L, and the length of the first delimiter Inputting a length value for determining a length value and a length value for determining a length of a second identification code, and The length of the first delimiter is determined by the length value of the inputted first delimiter, and the length of the second identification code is determined by the length value of the inputted second identification code, and the length of the first delimiter The remaining length after subtracting the length and the length of the second identification code is determined as the length of the third identification code, and the length of the code system is determined by the length of the first identifier and the length of the second identification code and the third identification code. An encoded code is generated, and the first identifier of the generated code is encoded with a length value determining the length of the second identification code, and an identifier is encoded into each of the determined second identification code and the third identification code. RFID code generation method comprising a. The method according to claim 1, wherein when the additional code is inserted in the code system to extend the entire code length,  After the identifier is encoded in the first identification code of which the length is determined, the additional code is inserted at any one of the first identifier and before or after the first identification code, and the identifier is encoded in the additional code. RFID code generation method further comprising. The method according to claim 2, wherein when the additional code is inserted in the code system to extend the entire code length, After the step of encoding an identifier in each of the second identification code and the third identification code whose length is determined, the additional code is inserted into any one of the first identifier, the second identification code, and the third identification code. And the additional code further comprises encoding an identifier. delete The method according to any one of claims 1 to 4, wherein the identifier is RFID code generating method characterized in that any one of the form of a combination of letters, numbers, symbols, bits, bytes, byte bundles, character bundles, symbol bundles, a combination of characters / symbols / numbers / bits / bytes. The method according to any one of claims 1 to 4, wherein the first delimiter, RFID code generation method characterized in that any one of a combination of letters, numbers, symbols, bits, bytes, byte bundles, character bundles, symbol bundles, a combination of characters / symbols / numbers / bits / bytes or set table values. Symbol strings such as letters and numbers are stored according to the code system which consists of variable indicator field, identification code number field, n-1 separators, n identification codes, and variable code length L having a natural number greater than 2n + 1. In the RFID code generation method is generated by encoding a variety of codes, Inputting a natural number of 3 or more to n; When a natural number of 3 or more is input to n, from the number indicator field, the identification code number field, n-1 delimiters from the second delimiter to the nth delimiter, and the fourth identification code within the range of the total code length L A length value for determining the length of the number indicator field is input, a length value for determining the length of the identification code number field is input, and the second delimiter. A length value for determining a delimiter length suitable for each delimiter from to n th delimiter and a fourth identification code corresponding to each of the identification codes from the second to nth delimiters to the n + 2 identification codes. Inputting a length value for determining the length, and The length of the number indicator field is determined by the length value of the input number indicator field, and the length of the identification code number field is determined by the length value of the identification code number field, and each of the second to n-th separators is determined. The fourth identification code inputted to correspond to each delimiter sequentially from the second delimiter to the nth delimiter is determined by the length value corresponding to the delimiter from the second delimiter to the nth delimiter. The length of each identification code from the fourth identification code to the n + 2 identification code is determined by the length value corresponding to each identification code from the n th +2 th identification code. From the length indicator field, the length of the identification code number field, the length from the second separator to the nth separator, and from the fourth identification code The remaining length after subtracting the length up to the n + 2 identification code is determined as the length of the n + 3 identification code, wherein the determined length indicator field length and the identification code number field length, and the lengths of the second delimiter to the nth delimiter, respectively And a code system having a length of L is generated according to each length from the fourth identification code to the n + 3 identification codes, and a value indicating the presence of an identification code number field is encoded in the number indicator field of the generated code. And a value representing the number from the fourth identification code to the n + 3 identification code is encoded in the identification code number field, and a fourth identification code is assigned to each delimiter from the second delimiter to the nth delimiter whose length is determined. Length value which determines the length of each identification code from to n + 2 identification codes is encoded, and from the fourth identification code from which the length was determined to the n + 3 identification code, respectively The identification code of the RFID code generation method, characterized in that consisting of the step of encoding the identifier. The method according to claim 8, wherein when the additional code is inserted in the code system to extend the entire code length, The number indicator field, the identification code number field, the second delimiter to the nth delimiter, respectively, after the encoding of the identifier in each identification code from the fourth identification code to the n + 3 identification code of which the length is determined, and the And the additional code is inserted at any one of a fourth identification code and a before or after each of the n + 3 identification codes, and the additional code further comprises encoding an identifier. delete The method according to claim 8 or 9, wherein the identifier, RFID code generating method characterized in that any one of the form of a combination of letters, numbers, symbols, bits, bytes, byte bundles, character bundles, symbol bundles, a combination of characters / symbols / numbers / bits / bytes. The method according to claim 8 or 9, wherein each of the delimiter and the identification code number field from the second delimiter to the n-th delimiter, RFID code generation method characterized in that any one of a combination of letters, numbers, symbols, bits, bytes, byte bundles, character bundles, symbol bundles, a combination of characters / symbols / numbers / bits / bytes or set table values. The method according to claim 8 or 9, wherein the count indicator field, Each delimiter from the second delimiter to the nth delimiter in any one of letters, numbers, symbols, bits, bytes, byte bundles, character bundles, symbol bundles, and a combination of letters / symbols / numbers / bits / bytes. RFID code generation method, characterized in that the reserved value. delete

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