JPH10503609A - Method and system for manufacturing an uncorrectable self-verifying article and verifying its authenticity - Google Patents

Abstract

The system includes an input data set (100) which includes a biometric data set (101) and an optional textual data set (102), an article (10), a processing system (103), and a self-verifying article (104). The input data set (100) is recipient specific data. The biometric data set (101) may include one or more physical traits personal to the potential article recipient, such as a photo, a retinal scan, a finger print, or a signature. The textual data set (102) may include one or more textual attributes, such as name, address, height and weight, or eye color.

Description

DETAILED DESCRIPTION OF THE INVENTION Method for manufacturing an uncorrectable self-verifying article and verifying its authenticity and system 〔Technical field〕   The present invention In general, regarding encoding methods and systems therefor, Especially self-confirmed goods Method for manufacturing and verifying its authenticity, System and manufacturing equipment You. (Background technology)   In modern life, Personal identification and Checking the authenticity of a document Speed Crab, It must be done simply and with high reliability. Confirmation of individuals and documents Authorization occurs in almost every commercial transaction. Moreover, The need for personal identification is The frequency of which is constantly increasing, Occurs in social and public environments.   Commercial transactions that require both document verification and personal identification include: Check Like everyday transactions like cashing, credit card, Book request card, There are automated teller machines (ATMs) and similar transactions. For example, Check And submit it to the bank for cash The bank will sign this check Verify the authenticity of (require endorsement), And check into this check account You need to check if you have enough deposits to cover. Endorsement Confirmation of sex Check that the signature written on the check is filed with the bank Decide by comparing with the signature sample of the applicant. With clever endorsements, Unjust It is possible for humans to illegally cash checks.   And from a non-commercial standpoint, The issue of personal identification is In connection with security issues Occur. For example, In security systems for apartments and offices, Trying to enter the building Humans Sign in front of security personnel, Issuance that permits entry to the building if there is You will need to show your completed ID. Security personnel include: The identity card is genuine Whether the person presenting it is the person listed on the ID Training is required to judge an individual accurately. In such an environment, Security personnel Being fooled by forged or forged ID cards, Wrong identification Easy to put. From a government perspective, In many countries, Citizens have personal status in public places You need to carry the certificate and present it as required by the authorities. For example, Transportation In the event of accident or traffic offense, Even private individuals, Like a driver's license Proof of personal identification is required. Election voting, Cross the border If And / or import and export goods, Individual ID required It is important.   Therefore, Personal, self-identifying, irrevocable, Commercial and public status Certification card, Documents, label, Tags and other similar parts (articles) are absolute Is necessary. For the purpose of this invention, What is an article? One surface on which the data is fixed, This may include the substrate, Are defined as all parts with Use here The term 'fixed' as used, Adhesion, imprint, Stuck, D Pitching, scratch, paint, printing, Hammering, Embedding , Sewing, Carving patterns with a drill, Stamping, Or in any other way, Any of or a combination of Means It is not limited to this.   In one current solution, In memory devices carried by individuals Required to use stored biometric information (biometric information) Have been. The term biometric information is For example, a signature, Fingerprint or photo Personal characteristics such as Samples of biometric information to use Me In 'coded position' where the memory device can be programmed in a secure environment Obtained from individuals. This sample is converted to code using normal coding techniques. It is. This sample The individual hand, Eye, Face or other unique physical features It is obtained by placing the signature on the input scanning device. The scanned information is To form one code, Can then be modified, Portable memory devices (for example, Magnetic stripe, Electronic or optical memory card, Floppy disk etc.) Is done. This portable memory device is given to an individual. When you need to confirm your identity , The individual uses the portable memory device, It is a place to check identity, ‘Remote access / Decryption ’position, The information recorded in the portable memory device is read from the memory. Be sent out. Then the individual Repositioning certain physical features on the input scanning device By Another sample of biometric information is obtained. Read out The machine code to the just sampled biometric information And Determine their authenticity. in this case, The read code is, for example, already Decrypted through the reverse process of the performed encoding, Or sample information If encoded by the encoding process used in the encryption location, Compared You. Such a solution is Processing for encoding and / or decoding data Need a system, Complex optics for each coded position and remote access position- The need to place electrical equipment, And that each individual needs a memory device And for reasons such as It costs a lot of money.   Therefore, the object of the present invention is Certified personal biomet To use on items that have a Provide uncorrectable code Is Rukoto.   Another object of the present invention is to accurately, Efficiently and without cost, Self presented It is to provide a method and system for determining the authenticity of a verification article.   Still another object of the present invention is to provide Expensive equipment for confirmation, For example, scanning for physical features No need for input devices, etc. Or having inconvenience in the central communication channel Not For confirming the authenticity of the self-verifying item presented at the remote access location To provide a law and system. [Disclosure of the Invention]   The present invention Coded machine with beneficiary-specific biometric data available With reading data, It relates to a self-identifying article. As a self-confirmed article, An example For example, commercial certificates (notes, check, check, Etc.) transaction Card (for example, ATM card, Book request card, Credit card), personal Identification documents (eg driver's license, Official card, passport, Identification documents ) And identify the owner or sender of the parcel, Imported by customs personnel It is sometimes used for product confirmation, Includes tags attached to the parcel surface It is. As a subset or whole of the biometric dataset, An example Personal characteristics considered to be unique to an individual, For example, fingerprints, Retina scanning information Information, Photos, Or a graphic image of their combination, Machine Preferably, it is coded to generate a machine-readable data set. Goods Is Desirably cheap paper or plastic, Or group It may be a plate. Plus machine readable days The turret is preferably fixed on or within the article. this The goods also But not necessarily, Biometric dataset on human You may have it in a form that can be read by the eyes.   In one embodiment of the present invention, This encoded machine-readable data set Specially Unless you use a configured reader, Understood or detected by the human eye It is fixed on the article in a form that does not fit. For example, Used for checking or similar purposes For other goods used, A machine-readable dataset containing the user's approved signature Is Fixed on it. as a result, Those who try to forge, approved Unable to copy signature sample. The user's signature and the decrypted signature By comparing Confirmation at the place of use is possible.   In another embodiment, Display a human-readable text data set on the article Is shown. This dataset is Optionally, Encoded biometric data Coded to be connected to or interposed with the data set text A subset of the data is shown together. For the purposes of the present invention, Text data The set consists of all data that is not biometric data.   Therefore, one embodiment of the present invention is: One surface, And encoded in machine-readable form A beneficiary-specific data set It is a self-confirmed article. In another embodiment Is One surface, Consisting of first and second data sets fixed to this surface , It is a self-confirmed article. Note that this second data set is a copy of the first data set. This is a hardened copy. As a modified embodiment, One surface, On this one surface Text data set having at least one text data subset And At least one fixed on one surface A biometric data set having a subset of the biometric data; Consisting of For self confirmation, This is a unique identification item for the beneficiary. Note that Iometric and text datasets are Optionally concatenated, Intervention Placed or otherwise combined, It may be fixed on the article. machine The readable dataset is Form at least one matrix (or array) It is desirable to be configured as an optically readable binary code. this The matrix is generally 2D barcode or matrix code Mentioned.   One feature of the invention is that The present invention relates to a method of manufacturing an uncorrectable self-verifying article. This method Beneficiary-specific data consisting of one or more subsets of beneficiary-specific data Receive the tuset, Selectively encoding a first subset of beneficiary-specific data To generate a machine-readable data set, And this machine readable dataset Each of which secures to the article surface, optionally together with a first beneficiary-specific data set It consists of steps. This machine-readable data set contains one or more machine-readable Desirably, it is fixed in a matrix. Printed machine-readable data set Is Fixed as a visual binary data, for example, in a specified blank area of an article It may be done. Or, as already mentioned, This machine-readable data Goods already On the existing print area, Or marking means below it, For example, separate from product printing Detectable, ultraviolet, May be printed using infrared or other color inks . Alternatively, Machine-readable dataset Select permanent magnet or fluorescent image By placing it on the article so that it can be read selectively, Can be separated Noh. As yet another possibility, This machine-readable data set can be identified Fixed in the form of a vector, On the dataset, Copied or otherwise If you try to play, Generate invalid code, Print the fake code and place it Can also be.   The machine readable dataset is Void (void, Void) as binary data And Physically fixed. In order to achieve the object of the present invention, The void is Hollow, Opening, Bubbles (bubble, bubble), Detent, Such as holes There Includes that they do not exist, The voids are arranged in a matrix. May be In this case, physical material identification capable of identifying void / non-void regions A system is used. As such an identification system, Ultrasound device or other Image technology. These are microscopic to determine if there are voids. It has a return signal that determines the depth or density of the region. Other optical technologies, It can be used in the same manner as used for a normal compact disc. Stuff If you use physical characteristics, Fill or cover the void with some material, Goods It is desired to make the surface flat. as a result, Articles are machined with one layer in the form of voids In some cases, it has a multi-layer structure with readable code.   As another modification, The rest of the code is above the opaque (or vice versa) layer There is an article in which a machine readable code is fixed. in this case, Optically detect this code To do Using strong ultraviolet light, Handle code even if it is hidden by other layers To be able to   Another feature of the invention is that The present invention relates to an operation method for confirming authenticity of a self-confirmed article. This In one way for On having an encoded biometric dataset Scan a self-identifying item in one of the formats and scan the biometric data To detect (read) and decode it, Further detected biometric data Biometric data detected by comparing data sets with beneficiary-specific samples. Determine whether the tuset represents a beneficiary-specific sample. Otherwise, The first data set is a coded copy of the second data set. Accepting a self-identifying item having first and second data sets such as Tep, The self-identifying article is scanned to check the coded first data set. Issue (or read, Etc.) steps, First encoded data set Decrypting the Converting the decrypted first data set to a second data set And determining the authenticity of the self-verifying article as compared to. Favorable fruit In the example, The first coded data set contains one or more machine-readable matrices Is printed during the scan.   Produce a single machine-readable data set to be fixed on an article in accordance with the principles of the present invention The processing system for Benefits with a subset of multiple beneficiary-specific data An input terminal for receiving a user-specific data set; Multiple for processing system A memory storage device for storing instructions; A processing unit that generates a machine-readable data set And And optionally, Generated machine-readable dataset and first beneficiary-specific data An output terminal for transmitting a subset of data It has. At least a processing unit Also retrieve and execute a single processing system instruction. This processing system instruction: place Order the management unit to select and encode the first beneficiary-specific data subset. Command. In one embodiment of the present invention, This processing unit also has a machine readable data set. Form an optically readable binary code in the form of at least one matrix It has a function to do.   Processing system for confirming authenticity of self-verifying article based on the principle of the present invention Is Accept (or scan, Read out) input terminal, Multiple A memory device for storing the processing system instructions of Confirm the authenticity of the self-verified item A processing unit for Optionally, Equipped with output terminals for transmitting output signals I have. Entering The force terminals are Said processing unit, Or other processing unit or input control Controlled by the device, Providing means for selectively scanning the surface of the self-identifying article I have. The processing unit is Retrieving at least one instruction from the memory device; Run I do. This instruction: First data fixed and encoded on a self-identifying article Detect the set, A processing unit is provided to decrypt this coded first data set. It is a command to the knit. In one embodiment, This processing unit is further decrypted Comparison of the first data set with the second data set fixed to the self-identifying article do it, It has a function of generating an output signal indicating the authenticity of the self-verified article. other In the example, This processing unit Decrypted first and second data sets Transmitting the tuset to the central host processing system, Comparison of these two datasets Is performed. In another embodiment, The first decrypted data set is a biometric Data, The output terminal outputs this biometric data to the output display device. To the device, The person there is a visual comparison of the identity of the owner of the self-identifying item. That can be done by comparison   One embodiment for using and / or distributing the present invention is: Write to storage media Software. This software is Single based on the principles of the present invention One or more items for generating self-identifying articles and / or verifying their authenticity. It has a plurality of computer instructions for controlling the processing unit. This computer The required encoding and / or decoding methods / algorithms, Or one of them Has a part. As the storage medium used, Magnetic storage device to name three examples , Optical memory, And / or three examples of semiconductor chips, etc., It is not limited to these.   Therefore, the effect of the present invention is: Biometric identification and this Used on goods with personalized character information approved for the person carrying the goods To provide uncorrectable code to be used.   Other effects include Relatively inexpensive technology, Preferably highly reliable Using a common printing device that has and is accurate, Secure machine readable code on article It is possible to do.   Another advantage of the present invention is that Inexpensively, Self-identifying pieces that cannot be corrected accurately and efficiently As well as methods and systems for producing personal identification and commercial documents, Self confirmation Goods.   Yet another advantage of the present invention is that The self-verified article presented, efficiently, And inexpensive To It is possible to provide a method and a system for confirming its authenticity.   Yet another advantage of the present invention is that Without the need for expensive equipment for verification, A method that can confirm the authenticity of self-verified items presented at a remote access location And a system can be provided. [Brief description of drawings]   For a more complete understanding of the invention and its advantages, The following description is attached See with In the drawing, Like numerals indicate like components.   FIG. A system for manufacturing self-identifying articles based on the principles of the present invention. It is a functional block diagram.   FIG. 1B FIG. 1B is a diagram illustrating the processing system described in FIG. 1A.   FIG. 1C FIG. 2 is a block diagram of a processing unit and a memory storage device.   FIG. 2A Check the authenticity of the self-confirmed item Confirmation based on the principle of the present invention FIG. 2 is a functional block diagram of a system for performing the above.   FIG. 2B FIG. 2B is an isometric view of the remote access location processing system shown in FIG. 2A.   FIG. FIG. 3 illustrates a machine-readable binary coded matrix.   4A and 4B Uncorrectable self-verification based on the embodiment shown in FIG. 1A It is a figure showing the flow chart for manufacturing goods.   FIG. Based on the embodiment shown in FIG. 4 shows a flowchart for confirmation. [Best mode for carrying out the invention]   FIG. 1 is a functional diagram of a system for manufacturing a self-identifying article based on the present invention. . This system is Biometric data, Biometric data) set 101 and optionally text data (textual) data, An input data set 100 including a character information data) set 102; Stuff Article 10; A processing system 103; Further, it includes a self-identifying article 104. Already stated As you can see, The data set 100 comprises beneficiary-specific data. Bio The metric dataset 101 is one or more bodies of individuals who may be beneficiaries of the goods. Characteristic (for example, Photo, Retinal scanning information, fingerprint, Sign, etc.) on the other hand, input The text data set 102 optionally included in the data set 100 includes one or more Text attributes (for example, name, Street address, height, weight, Eye color). Processing system System 103 Generate a single machine-readable data set that is immobilized on article 10 By things The self-identifying article 104 is manufactured. The processing system 103 Input means , Processing means, Output means and article manufacturing means are included. The input means Input dataset 100 and goods 10 Put in. The processing means is The truth of the input dataset 100, literally and semantically Proof Biometric dataset 101 and optionally text data Encode a selected subset of set 102 (optionally, If hope If necessary, the data to be encoded may be encrypted first). The output means is Authenticity Proven and coded datasets Biometric data set 1 01, and optionally a text data set 102, Transmit to the article manufacturing means. Article manufacturing means Authenticity has been proven and coded Data set It is fixed on the article 10. The biometric data set 101 and optionally a text data set 102, On the article 10 Even if they are fixed together Good. Thus, the self-check article 104 is created.   In a preferred embodiment, The processing system 103 Biometric and text Compact, uncorrectable, machine-readable data of all selected subsets of data Coded into sets, The machine-readable data set is then By configuring Rick, Ensure data integrity (integrity). Young and rare If you wish, Splitting a machine-readable data set into two or more individual segments good. These segments are then Two or more machine-readable two-dimensional matrices It may be buried. Note that these matrices have the same visual size, Alternatively, it may be different. These composite matrices Physically separated Even if Human-readable character information and / or machine-readable matrices No matter what modification you try to make, Has check values and features. In this regard, Coded biome Concatenate trick and text data into one data string, Divided into almost two parts, Then two matrices of almost the same size Form a box. Alternatively, Biometric data and text data, For example, alternating bits, Part-Time Job, One piece of data interposed between byte groups Form a column, It is then split into two matrices. Each matrix is To independently confirm the data integrity of each matrix, Have a checksum Is desirable. further, Or alternatively, These matrices Is To check the integrity of the data by combining the two matrices, Interdependence It may have a checksum. As a result of these checksums, One Matrix If the source is modified, Or if the two matrices have been modified, Invalid data is read. Conveniently, Intervening according to a predetermined routine The placed biometric data and text data Detect matrix modification Strengthen your ability to Alternatively, One biometric data set 101 Formed into individual matrices, Text data set 102 into a second matrix It is also possible to form it.   In one embodiment, For existing criteria, Accepts machine-readable datasets By confirming no, Data security can be further enhanced. this That is, specifically, Database of published goods (for example, Depends on processing system Remembered for use, Search for organized and comprehensive data collection) And determining unity. In another embodiment, Input data set 1 00 is No algorithm for verification and coding, Remote access code It should be noted that the data may be received at the default location. in this case, Beneficiary Represent both unique biometric data and related text data The data signal is Transmitted to a secure central host (FIG. 2, Shows a similar configuration ). The central host then Perform the above confirmation work. This transmission is wired Or wirelessly.   If you decide that you can accept the beneficiary, Beneficiary-specific biometry Encoding data. This encoding preferably uses a compression algorithm do it, Multiple subsets of biometric data, And optionally text day Data subsets into one or more machine-readable matrices. Input Remote access code where the data set 100 has no algorithm for encoding If it is received at the card location, The binary signal sequence after encoding is do it, Transmitted to the remote access coded location. The machine-readable dataset is then , With a standard article issuing device (shown in FIG. 1B) On one or more self-identifying items Fixed to When the article is formed and issued by the article issuing device, This fact It is automatically recorded in the database. If the input data set 100 is If it is received at the card location, This database probably resides on a central host ing. Entries in this record Prevents duplicate publication of articles at a later date Because The number of goods issued is directly related to the intended use of the goods. You need to be careful. From such features of the present invention, The following applications are possible is there. That is, One time driver's license with photo converted to specific code Issue, Or multiple items, Check, for example, Traveler's check, Bank account payment slips, For those who issue goods multiple times, Application is possible.   FIG. 1B 1 is an isometric view of a processing system 103. The processing system 103 Goods A personal computer (PC) 105 connected to the issuing device 114 is included. P C105 is Hardware case 106 (partially cut away), Mo Nita 109, It comprises a keyboard 110 and optionally a mouse 113. Hardware The case 106 includes a floppy disk drive 107 and a hard disk drive. , And both of them. The floppy disk drive 107 is an external disk drive. Accept Read and write. on the other hand, The hard disk drive 108 Perform fast access data storage and retrieval. Floppy disk drive Only 107 is shown, The PC 105 transmits and receives data having an appropriate configuration. apparatus, For example, Tape and compact disk drives, And serial / parallel data A port may be provided. Inside the notch of the hardware case 106 Is Processing unit, Central processing unit (CPU) 111, Contact this CPU 111 Connected memory storage, In the illustrated embodiment, a random access memory (RAM ) 112 is included. PC 105 is shown as having one CPU 111 Has been Multiple CPUs 1 operative to cooperate to execute the principles of the present invention 11 may be provided. The article forming device 114 One or more items from PC 105 Receiving the force data set, This output data set is fixed on the surface of the article.   The PC 105 and the article forming apparatus 11 embody the processing system 103 4 is shown, The present invention Besides this, For example, a sophisticated calculator, and Portable small main with risk and parallel processing architecture At least one processing unit including a frame and a supercomputer Yeah, In any processing system, And within the former network connection Is possible, It is possible to use more appropriately configured article forming means It is.   FIG. 1C Of the multiple sub-processing systems used in connection with FIGS. 1A and 1B, FIG. 4 is a block diagram conceptually showing one of them. This sub-processing system For example, data Like a RAM 112 via a bus 118 Connected to a simple memory storage device, For example, one processing unit such as the CPU 111 Equipped. The memory storage device 112 The processing unit 111 searches, Translated It has the function of storing one or more instructions that can be executed. Processing unit 111 is a control unit 115, Logical operation unit (ALU) 116, And pile Local memory storage 1 such as a stackable cache or multiple registers 17 are included. The control unit 115 receives instructions from the memory storage device 112 Switch. ALU 116 For example, the addition required to execute the instruction, Boolean AN Execute a plurality of operations including D. The local memory storage device 117 Temporary closure The present invention provides a high-speed storage device used for storing results and control information.   FIG. 2A Based on the present invention for confirming the authenticity of the received self-identifying article It is a functional block diagram of a system. This system is a self-identifying article 104, Remote Access position processing system 200, Note that this can optionally be centered (as shown by the dotted line). Is connected to the strike processing system 103, Further display devices, Printer , Or any other properly configured display device authenticity message Display means 201 is provided. The self-identifying article 104 At least one Contains the data set In this dataset, Biometry The first data, which is a coded copy of some or all of the data set Subsets are included. The self-identifying item 104 may also be a text data set or Iometric dataset, Alternatively, it is desirable to include both.   The remote access position processing system 200 includes: Input means, Processing means and output means It has. The input means receives the self-confirmed article 104. Processing means is self-determined The authenticity of the approved article 104 is confirmed. Remote access position processing system 2 00 and central host processing system The communication between the systems 103 is performed. The output means is To the authenticity created by the processing means Message about The data is transmitted to the display means 201.   The processing means is By scanning the self-identifying article 104, Coded first data set And decipher this, Further, the decrypted first data set is converted to the second data set. Compare with tuset. This second dataset is obtained from the owner of the goods Or Alternatively, it is either fixed to the self-identifying article 104. further The processing means generates an output signal indicating the authenticity of the article 104. In another embodiment, This The processing means of Comparison work between the decrypted first and second data sets Business, Or do not execute. Instead, This processing means Deciphered The first dataset, For example, a group of biometric data sets With a graphic image display, An output signal indicating the second data set is displayed. Generated on the device, These can be compared manually by the processing system operator. Compare. As another alternative, The processing system operator Decrypted number 1 dataset, Optionally a second data set (this is fixed to the article Case) and The owner of the goods themselves, Or from its owner, Or data Obtained from the base, For example, the owner's signature, Biometric data set such as appearance And You can also compare manually. Check the authenticity of the self-check item 104 The illustrated system that recognizes Various devices, For example, portable terminals, Fixed station It is also possible to use a scanning device and a flat-bed scanner. Note that These reading devices Whether it has a built-in decryption function, Or processing system The decryption function at the base / host station such as Wired, Nothing Line frequency, Shortwave, Mobile communication (cellular), Infrared or other radio It can be used via communication means. Remote access position processing system 200 And / or the central host processing system 103 Keyboard and Coded Accurate display of bio-metallic images and / or text data A display screen with sufficient resolution. Also, Ready for decryption Required to convert a machine-readable data set into binary machine language bits, I In some cases, an image forming device is incorporated. This imaging device CCD, C MOS, Based on many technologies including NMOS or other photosensitive sensors It is configured. This sensor is Two-dimensional domain, Or one-dimensional linear array Has a shape, Alternatively, a single video that scans a two-dimensional image in a raster pattern Laser reading element.   As a preferred embodiment of this imaging device, There is a linear array scanner. This scanner is For the boundary indicated by the solid line of the printed machine-readable code 205 It is arranged vertically. If more than one matrix is used, these The matrices are arranged in parallel, as a result, CCD scanner Normal magnetics As in the case of trip read, Normal card swipe action (cards Wipe action) Pass through two symbols. Like this The matrix is read The video image of each matrix is stored in memory. Recorded It is processed. Imaging is laser, Laser diode, Infrared Is done using other binary imaging techniques. These elements are two It is configured as a one-dimensional linear array or a one-dimensional linear array. Alternatively, The reading device is Image and information encoded in a machine-readable matrix In a form that can be understood by humans on the same article, Has a function to automatically check In some cases. In one embodiment, This comparison In the memory of the remote access location processing system 200, Thereby, Ta No need for keypad and / or high resolution display screen on terminal It can also be. Or, as already mentioned, The operator is on his own, end Information displayed on the screen and the person indicated by the article and / or the owner of the article Can also be compared to readable information.   FIG. 2B Hand Held Used as Remote Access Location Processing System 200 It is an isometric view of a computer (handheld). This handheld computer 20 0 is the keypad 202, Display screen 203 and input terminal 204 Have. Keypad 202 manually receives input data from the user like, It has a plurality of keys arranged systematically. display The screen 203 Messages about authenticity, And / or biometry And for displaying text data and / or text data. Input port Port 204 In this case, the driver's license Things. In the illustrated embodiment, This license contains two optically readable binaries Encoded in the form of a matrix, Machine-readable data set 205a; has b ing. The remote access position processing system 200 includes: Sub-processing system shown in FIG. 1C alike, Has at least one processing unit and one memory storage device . This processing unit Linked memory (instructions to identify and decode matrices) A non-volatile storage device for holding a program set; Secure data processing work area A volatile memory for performing Matrix to decipher Video memory for storing images of Association mounted on a single printed circuit board It is desirable to have the signal adjustment circuit of FIG.   FIG. Converted to machine-readable binary code, Generally Shown as Rix 205, 2 shows a preferred shape of one matrix. The matrix 205 is Formerly located in Clearwater, Florida, Assignment of this invention Developed by the International Data Matrix Company data It is an example of a matrix symbol display method. The matrix 205 is Indicated by solid line Intersecting sides 301, It consists of alternately provided diagonal grids 303 and white grids 304. Has a periphery 300 composed of the crossed side sides 302. Generally at 305 The data shown is Within the periphery 301 of the matrix 204, Visualize each character to remember Is converted into a typical binary code and stored. Note that the diagonal lines and white grid The binary code Of binary information to be coded Paired with 1 and 0 I am responding. A more detailed description of the matrix 205 By the assignee of this application U.S. Patent No. 4, 939, Issue 354, “Dynamic Variable Machine-readable Binary Code And how to read and manufacture it " United States Patent No. 5, 32 4, No. 923, “A device for producing a dynamically variable machine-readable binary code and its reading and And manufacturing methods ”. These patents are referenced as references in this application. doing.   FIG. 4A shows Based on the embodiment shown in FIG. 1A, Uncorrectable self-checking artic 6 is a flowchart for manufacturing a file. A process based on the principles of the present invention , It starts with a start block 400. The processing system 103 At least one Receive a beneficiary-specific data set consisting of a subset of the data (input block H 401). The processing system 103 Graphics of the first data subset It is desirable to perform image compression. In order to digitally display acquired data, About 50: It is desirable to perform one or more image compressions. Compressed to this extent In the data obtained, Without significant loss of visual quality, Beneficiary's unique image The general graphic It can be played on the spray screen (block 402). This Image compression is Normal standard routines, For example, a discrete cosine transform (Discre te Cosine Transform (DCT)), LZW (Lempel -Ziv), By fractal etc. Encoding the first subset of data Reduce the number of bits required for 50: A compression ratio of 1 is appropriate, Other pressure Reduction ratios are also possible. In addition to data compression, Graphic image enhancement routine May be applied to the first data subset. The application of this routine is Special If you want to image the beneficiary's photo on Improve image contrast, Edge Sharper and smoother, To reduce the effects of shading, Data compression It is desirable to do this before the step. by this, Digital image Good Data compression can be performed effectively. A good image enhancement routine is 1987, Addison-Wesley Pub living Co. (Reading MA)) Zarez (R. Gonzales) et al. Have been. The processing system 103 selectively codes the compressed first data set. To generate a machine-readable data set as a result (processing block 403). ). This optional coding step is more complete in connection with the detailed description of FIG. 4B. Is described in In one embodiment of the present invention, processing system 103 includes Data set as an optically readable binary code forming one or more matrices (Processing block 404). The processing system 103 This machine-readable data set and the first data subset specific to the beneficiary are On the surface of the product, and as a result, the self-identifying article 104 is manufactured (processing block). 405). In one embodiment, this matrix For example, thermal, thermal conversion, inkjet, bubble jet, It is fixed on the article by a general printing method such as print matrix printing. Another One method is to form one or more matrices, e.g. Can be fixed on the sub-surface that has been made, or can be arranged on the printed layer of a multilayer article. You. In other embodiments, this machine-readable data set may be Such printing is performed on the already printed area of the article. In yet another embodiment, this Matrix introduces bubbles or voids into the article according to the matrix pattern By drilling holes that do or do not penetrate the article Alternatively, it is formed by providing with a punch. In this case, the material on the article The presence or absence of the material, the relative density of the material, the depth of air bubbles, voids, holes, etc. Has a bounce signal that can identify the code, such as surgical and optical measurement systems. Code can be read mechanically by a suitable imaging system It is.   FIG. 4B shows a more detailed flowchart of the processing block 402 shown in FIG. 4A. You. By entering a start block 406, the selective selection of the first data set Coding starts. The first data set is processed by the processing system 103. To determine if the first data set is within acceptable limits. (Processing block 407). This comparison step can be, for example, integrated and / or Alternatively, it may be accompanied by partial analysis. Determined that the first dataset is invalid If it is determined (branch N of the decision block 408), the processing system 103 confirms itself. The issuance of the article is stopped (end block 409). Conversely, the first data set If it is determined that the credit is valid (branch Y of the decision block 408), the processing system 1 03 searches the database of already issued articles and checks whether the issued A determination is made (processing block 410). This unity creates a mold for the manufactured article Based on subjective (personal) decisions. Data used by the processing system 103 The database may be internal to the processing system 103 or external. . In both cases, the processing system 103 stores the database directly or indirectly. Can be searched. For example, this database is stored at a remote location , Such that the processing system 103 is controlled by another communicable processing system. It may be something. If the first data set is determined not to be single to accept If it is determined (branch N of the decision block 411), the processing system 103 Manufacturing is stopped (end block 412). If the first dataset accepts Is determined to be single (branch Y of the decision block 411), the processing system 103 may include one or more subsets of the received beneficiary-specific data set. , Selectively inserted into the database as at least one record (processing block 413). Thereafter, processing system 103 encodes the first data set (processing Block 414), in one embodiment, error correction to the coded first data set; Add a positive bit.   Selective encoding of only the first data set specifically illustrated in FIGS. 4A and 4B Is for illustrative purposes only and includes multiple compressed beneficiary-specific data sets. Selectively encoding, selectively combining coded subsets , Intervening to form a single machine-readable data set, It is necessary to understand that this is one of the forms and features. In addition, there are two Or more data subsets are coded, concatenated and interposed The processing system 103 then converts the machine readable data set into one or more optically readable matrices. Molded into a box. At this time individual codes A structured data subset may span more than one matrix.   FIG. 5 shows the authenticity of the self-confirmed article received based on the embodiment shown in FIG. 2A. 2 shows a flow chart for verifying. To enter start block 500 Therefore, processing based on the principle of the present invention is started. In this example Includes a plurality of data sets, a first one of which is a second data set. Is a coded copy of the remote access location processing system 200. (Input block 501). Remote access position processing system 20 0 scans the next accepted self-identifying article and encodes the first data set (Processing block 502). The remote access position processing system 200 Decrypt the first data set that has been coded (processing block 503); Self-confirmed acceptance of the compared first data set with the second data set The authenticity of the item is determined (processing block 504).   In one embodiment, between the remote access location processing system 200 and the processing system 103 This comparison step is executed by the communication of. In this case, the processing system 1 03 is a database of beneficiary-specific data on self-verified items that have already been issued. keeping. In this embodiment, the remote access position processing system 200 and the processing system Communication between the stems 103 is performed by wired or wireless means. Other embodiments , At least the decrypted first data set and, optionally, the second data set The set is transmitted to the output display device and the system operator Perform a simple comparison. If the decrypted first data set is determined not to be authentic If (the branch N of the decision block 505), the remote access position processing system 200 is true. Display a message 201 about fakeness and confirm that this self-verifying item is invalid. (Output block 506). Conversely, the decrypted first data set is genuine. If it is determined that the remote access position processing is to be performed (branch Y of the determination block 505), The stem 200 displays a message 201 regarding authenticity, and the self- Indicates that it is valid (output block 507).   In another embodiment, the remote access location processing system 200 includes an encoded second Prior to decrypting the first dataset, the accepted self-confirmed item was And converts this digital bitmap image to multiple areas. Divided into In this case, the first region contains the coded first data set , The second region includes a second data set. In this embodiment, the first and second Multiple biometric and / or textual data subsets in both areas Which are shared by the remote access location processing system 200. It is converted to a format and processed.   As noted above, the self-verifying article in one embodiment is biometric data. Including a first data set and a second data set that is text data. Has a matrix of Further, in one embodiment, the article stores variable data. To have a magnetic stripe. This variable data is stored in a machine-readable Scans the data, decodes certain data contained therein, With or without data on a magnetic stripe Be programmed. As a result, in applications where it is necessary to read out magnetic stripes This self-confirmed article can be used effectively.   Another use of the present invention is to prevent piracy in software . Software is the special feature of a program recorded on one of the above-mentioned multiple recording media. It is a special form. Software is professional You can freely transfer or copy programs from one recording medium to another. And enable. As a result, unauthorized users can obtain software piracy. It is possible to put in. For example, in one embodiment, the purchaser of the processing system Provide hardware vendors with personalized personal data. This personal day Data contains biometric data and is optionally encrypted and stored in the processing system. In some cases. When a purchaser of a processing system purchases software, In addition, it is required to present such personal data that has been industrialized. Note that This personal data is compressed, optionally encrypted, and preferably binary coded. Encoded in a machine-readable dataset as one or more matrices Fixed on a portable storage medium such as a floppy or compact disc I have. Once this software is loaded into the processing system, it will follow the principles of the present invention. The matrix is scanned, decoded, verified and compared to existing recorded data. The commonality of the owner is confirmed. As a result, software piracy is prevented. You. If the owner is recognized as common, this software will be It is loaded onto the processing system along with industry standardized personal data. Processing system If the owner transfers ownership of this processing system, the new owner will transfer his software Need to redefine industry standardized personal data to load air . This suspends the use of the existing software by the new owner, or Involves automatically erasing existing software. Temporary use of software If discontinued, ownership of this particular software must have been legally transferred. The owner transfer routine to restart the decommissioning of existing software Is available.   The present invention and its effects have been described in detail. Various changes, substitutions and substitutions may be made without departing from the spirit and scope. is there.

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁶ Identification code Agency reference number FI G06K 19/10 9382-5K H03M 7/30 Z G07F 7/12 7623-5B G06K 19/00 R G09C 1/00 660 7623-5B S H03M 7/30 9168-5L G06F 15/30 340 9168-5L 350 0334-3E G07F 7/08 B

Claims (1)

[Claims]   1. Beneficiary-specific data set consisting of one or more subsets of beneficiary-specific data Accept   Generating a first beneficiary-specific data subset to generate a machine-readable data set; Coded,   Fixing the machine readable data set on an article. The method of manufacturing beneficiary-specific goods to be collected.   2. Further, the first beneficiary-specific data subset is within a tolerance of the control value. The first beneficiary-specific data subset to determine if 2. The method of claim 1, further comprising the step of comparing at least a portion with the control value. The method described in.   3. The comparing step further includes, after determining that the value is within an allowable range,   To determine if the beneficiary-specific data set is unique, A database of unmodifiable articles that contains one or more records Search and   If it is determined that the item is not a single item, the manufacture of the single beneficiary unique identification item is stopped. Stop,   If determined to be unique, modify the beneficiary-specific dataset to a ready-made modification Inserting into at least one or more records in the database of impossible items, 3. The method according to claim 2, comprising steps.   4. The encoding step further comprises at least storing the machine-readable data set. A component that forms an optically readable binary code that forms one or more matrices. The method of claim 1, comprising a step.   5. Before the configuration step,   Selectively encoding a second beneficiary-specific data subset;   Encoding the encoded second beneficiary-specific data subset into the encoded Combining with a first beneficiary-specific data subset to form the machine-readable data set 5. The method of claim 4, comprising the steps of:   6. The fixing step further comprises etching the matrix on the article. The method of claim 4, comprising the step of:   7. The securing step further includes imprinting the matrix on the article. The method of claim 4, comprising steps.   8. The encoding step further comprises the first beneficiary-specific data subset 2. The method according to claim 1, comprising encrypting.   9. The combining step includes the coded second beneficiary-specific data sub-set. And a coded first beneficiary-specific data subset. 9. The method of claim 8, comprising the step of:   10. The second beneficiary-specific data subset includes text data. The method of claim 8, wherein the method is characterized in that:   11. The first beneficiary-specific data subset includes biometric data. 9. The method according to claim 8, wherein the method comprises:   12. The encoding step further comprises the step of combining the machine readable data set into two Constructing optically readable binary code to form a trick The method according to claim 1, characterized in that: Law.   13. A first dataset which is an encoded copy of the second dataset Received benefit comprising a plurality of data sets comprising: A method for confirming the authenticity of the article unique to the person,   Scanning the accepted beneficiary-specific article to the coded first data set; Headline,   Decrypt the encoded first data set; and   Said decrypted to confirm the authenticity of said accepted beneficiary unique identification article Comparing each of the first data sets to the second data set. A method for confirming the authenticity of the received beneficiary-specific article.   14． The scanning step further comprises:   Converting the plurality of data sets into a digital bitmap image; hand   Converting the digital bitmap image to the encoded first data A first region including a set and a second region including the second data set 14. The method according to claim 13, further comprising the step of dividing the image into a plurality of regions. the method of.   15. The first region includes a coded text data subset, The decrypting step further comprises the decrypted text data subset of the first area. And the text data subset of the second area into a first data format. The method of claim 14, comprising converting.   16. The first region contains an encoded biometric data subset. And the decrypting step further comprises the decrypted biometric of the first region. Data subset and the second area Converting the metric data subset to a first data format 15. The method according to claim 14, comprising:   17． The comparing step further comprises the decrypted first data set and the decrypted first data set. Transmitting the second data to a processing system for authenticity verification. 14. The method according to claim 13, wherein the method comprises:   18. A single machine-readable dataset produced and a beneficiary for self-authentication A processing system for fixing on a unique article,   A beneficiary-specific data set consisting of at least one beneficiary-specific data subset Input terminal for receiving the   A memory storage device for storing a plurality of processing system instructions;   Retrieving and executing at least one of the processing unit instructions from the memory storage device To generate the machine-readable data set for self-authentication. A processing unit for fixing it on the beneficiary-specific article; Has the function of encoding the first beneficiary-specific data subset; and   Converting the encoded first beneficiary-specific data subset to the machine-readable data An output terminal for transmitting as a set,   The processing unit further comprises a sub-set of the encoded first beneficiary-specific data. An optically readable binary code forming the set into at least one matrix A processing system, characterized by having a function of configuring the system.   19. The processing unit further selects a second beneficiary-specific data subset Coded, and   Encoding the encoded second beneficiary-specific data subset into the encoded Combining the machine-readable data set with a first beneficiary-specific data subset. The function according to claim 18 having a function of performing Processing system.   20. The processing unit is further configured to store the machine-readable data set in two matrices. Having the function of constructing an optically readable binary code forming a Item 20. The processing system according to item 19.   21. Further, determining whether the first beneficiary-specific data subset is valid. Comparing the first beneficiary-specific data subset with one or more control values. 19. The processing system according to claim 18, comprising means for performing the operations.   22. Determining whether the beneficiary-specific data set is unique For this purpose, a database of ready-made self-authentication articles with one or more records is searched. Means for searching, and   If unity is confirmed, the beneficiary-specific dataset is transferred to the ready-made self- Means for inserting into at least one record in the database of authenticity confirming articles; 19. The processing system of claim 18, comprising:   23. In addition, the machine-readable data set is connected to the output terminal for self-authentication. 19. The process according to claim 18, further comprising an article manufacturing apparatus for fixing the article on a false identification article. Management system.   24. The article manufacturing device may further include at least a portion of a beneficiary-specific data set. Claim, comprising means for securing the minutes on a self-authentication article. Item 24. The processing system according to item 23.   25. A first data sub that is a coded version of the second data subset Set and an input for receiving a data set consisting of said second data subset This input terminal is controlled by the processing unit and selects the surface of the self-confirmed article. Having means for selectively scanning;   A memory storage device for storing a plurality of processing system instructions;   Retrieving and executing at least one of the processing unit instructions, The processing unit for verifying the authenticity of the self-verifying article, the processing unit comprising: The unit has the function of decrypting the coded first data subset A processing system for confirming the authenticity of the self-verifying article, comprising:   26. Further, the decrypted first data subset is converted to the second data subset. 26. The processing system of claim 25, including means for comparing with the buset.   27. Further, a means for generating an output signal indicating the authenticity of the self-identifying article. 27. The processing system of claim 26, comprising a stage.   28. The processing unit further comprises   Converting the received data set into a digital bitmap image; And   The digital bitmap image is stored in the first area in the coded A second region that includes one data subset and the second region includes the second data subset. 26. The processing system according to claim 25, further comprising a function of selectively dividing a plurality of areas. Tem.   29. The first area and the second area are respectively biometric data And the processing unit further comprises a buffer of the first area. An iometric data subset and a biometric data Has a function of converting the set into a first data format. A processing system according to claim 28.   30. The first area and the second area are each a text data subset And the processing unit further comprises a text data subset of the first area. And converting the text data subset of the second area to a first data format. With a function to replace 28. The processing system of claim 27.   31. Means for displaying the decrypted first data subset. 26. The processing system according to claim 25.