RU166152U1 - AUTONOMOUS AUTOMATED WORK PLACE FOR CONTROL OF PASSPORT DOCUMENTS - Google Patents

Abstract

A stand-alone automated workstation for controlling passport documents, containing a block for receiving data codes for optical scanning of passport documents, the information and synchronizing inputs of which are the first information and synchronizing inputs of a stand-alone automated workstation, while the first information input of a stand-alone automated workstation is designed to receive electronic passport data from a scanning device, the first synchronizing input of a stand-alone machine of the workstation is intended for receiving synchronizing pulses of the scanning device, and the first information output of the optical scan data codes receiving unit of passport documents is connected to the information input of the memory block, the data codes receiving unit of the integrated integrated circuit (chip) of passport documents, the information input of which is the second information input autonomous workstation designed to receive data codes of integrated integrated circuits we (the chip) of passport documents, and the synchronizing input of the data code receiving unit of the integrated integrated circuit (chip) of passport documents is connected to the first synchronizing input of the stand-alone workstation, the fingerprint receiving unit of passport document holders, the information input of which is the third information input of the autonomous automated workstation designed to receive fingerprint data from the information output of the reader

Description

The utility model relates to the field of computer technology, in particular to an autonomous workstation for controlling passport documents, which allows solving the problem of establishing the fact of authenticity of a document and its identity to the bearer.

One of the main problems associated with the use of passport documents is the verification of the authenticity of the document and its compliance with the owner. Indeed, only after verifying the authenticity of the passport and comparing the passport data with the identity of its owner, a bank employee, for example, can carry out monetary transactions, and a notary public can fasten a gift, sale and purchase agreement, etc.

Known technical solutions that could be used to solve the problem (1, 2).

The first known technical solution includes a computer, a fingerprint scanner, a machine-readable zone of passport and visa documents, an optical scanner, an RFID reader, a barcode reader, a battery, a wireless module, and a scan unit with a video camera (1).

A significant drawback of this device is the low reliability of recognition of passport and visa documents in a machine-readable zone when reading internal passports of the Russian Federation due to the inability to compare the received data with their reference values stored in the database of the server of the police, which significantly reduces the reliability recognition of the device as a whole.

Another technical solution is known, consisting of a fingerprint scanner, a LDPE reader, a video camera connected via a USB hub to a computer, an extended format fingerprint scanner that forms images of four fingerprints, rolled fingerprints and palm prints at the same time. In this case, the device modules interact with computing means (personal computer or laptop) via the USB 2.0 High Speed interface (2).

The last of the above technical solutions is closest to the described.

Its disadvantage also lies in the low reliability of personal identification according to the optical reading of passport data, due to the fact that the personality control procedure is implemented without comparing the read passport data with their reference values.

The purpose of the invention is to increase the reliability of control of passport documents by implementing procedures for autonomous automatic control of biometric parameters and verification of data from passport holders.

This goal is achieved by the fact that in a stand-alone automated workstation containing a block for receiving data codes for optical scanning of passport documents, the information and synchronizing inputs of which are the first information and synchronizing inputs of a stand-alone workstation, while the first information input of a stand-alone workstation is designed to receive electronic passport data from a scanning device, the first synchronizing input is autonomous about an automated workstation is intended for receiving synchronizing pulses of a scanning device, and the first information output of the optical scanning data codes codes receiving unit of passport documents is connected to the information input of the memory block, the data codes receiving unit of the integrated integrated circuit (chip) of passport documents, the information input of which is the second information the input of a stand-alone workstation designed to receive data codes of the integrated integrated microcircuits (chip) of passport documents, and the synchronizing input of the data codes receiving unit of the integrated integrated microcircuit (chip) of passport documents is connected to the first synchronizing input of the autonomous workstation, the fingerprint codes receiving unit of passport documents owners, the information input of which is the third information input of the autonomous automated a workstation designed to receive fingerprint data from the information output of a reader The synchronizing input of the block of receiving fingerprint codes of owners of passport documents is the second synchronizing input of an autonomous workstation designed to receive synchronizing pulses from the synchronizing output of the reader, the addressing unit for recording documents of passport documents, the information output of which is connected to the address input of the memory block the output of the addressing unit for records of passport documents is connected to the input a control unit for recording a memory block, the information output of which is the information output of a stand-alone automated workstation, and a signal output integration unit, the output of which is the first signal output of a stand-alone automated workstation, a data identification unit for passport holder data is introduced, one information input of which is connected to the second information the output of the unit for receiving data codes of optical scanning of passport documents, another information the first input of the passport document holder data identification unit is connected to the first information output of the passport document holder's integrated data chip data chip receiving unit, the synchronizing input of the passport document holder data identification unit is connected to the first synchronizing input of the stand-alone workstation, and the first block output identification details of data holders of passport documents is connected to the first input of the signal integration unit of the outputs, a digital photo identification card holder for passport documents, one information input of which is connected to the third information output of the passport documents optical scan data reception unit, another information input of the passport document holder digital photos identification block is connected to the second information output of the integrated integral data code reception unit microcircuit (chip) of passport documents, synchronizing input of identification block of digital photos of passport holders documents is connected to the second output of the passport document holder data identification unit, and the first output of the passport document holder's digital identification block is connected to the second input of the signal output integration unit, the passport document holder's biometric identification module, one information input of which is connected to the third information output unit for receiving data codes of the integrated integrated circuit (chip) of passport documents, another information input a unit for identifying biometric parameters of owners of passport documents is connected to the information output of a unit for receiving fingerprint codes of owners of passport documents, and the synchronizing input of a unit for identifying biometric parameters of owners of passport documents is connected to the second output of an identification block for digital photos of owners of passport documents, while the first output of the unit for identifying biometric parameters holders of passport documents connected to the third input of the integration unit signal outputs, and the second output of the identification block of the biometric parameters of the owners of passport documents is the second signal output of the autonomous workstation connected to the counting input of the addressing unit of records of documentation of passport documents.

The invention is illustrated by drawings, where in FIG. 1 is a structural diagram of a workstation; FIG. 2 is a structural diagram of a unit for identifying details of data of owners of passport documents, FIG. 3 is a block diagram of an addressing unit of document records of passport documents; FIG. 4 - an example of the design of an autonomous workstation.

The stand-alone automated workstation (Fig. 1) contains a unit 1 for receiving data codes for optical scanning of passport documents, a unit 2 for receiving data codes for an integrated integrated microcircuit (chip) of passport documents, a unit 3 for receiving fingerprint codes for owners of passport documents, a unit 4 for identifying details of the owners data passport documents, block 5 identification of digital photos of owners of passport documents, block 6 identification of biometric parameters of owners of passport documents, block 7 addressing records documenting passport documents, memory unit 8 and section 9 outputs the signal integration.

In FIG. 1 also shows the first 10, second 11 and third 12 information inputs of the workstation, the first 13 and second 14 synchronizing inputs of the system, as well as information 16 output, the first 17 and second 18 signal outputs of the workstation.

Block 1 (Fig. 1) of receiving the optical scan data code of passport documents is made in the form of a register having information 10, synchronizing 13 inputs, as well as first 21, second 22 and third 23 information outputs.

Block 2 (Fig. 1) of receiving the data code of the integrated integrated circuit (chip) of the passport documents is made in the form of a register having information 11 and synchronizing 13 inputs, as well as the first 24, second 25 and third 26 information outputs.

Block 3 (Fig. 1) of receiving fingerprint codes of owners of passport documents is made in the form of a register having informational 12 and synchronizing 14 inputs, as well as informational 27 output.

Block 4 (Fig. 2) identification details of the data of owners of passport documents contains a comparator 50 and a delay element 51. The drawing shows the first 28 and second 29 information and synchronizing 30 inputs, as well as the first 31 and second 32 outputs.

Block 5 (Fig. 1) for identifying digital photos of owners of passport documents is made in the form of a comparator having the first 33 and second 34 information and synchronizing 35 inputs, as well as the first 36 and second 37 outputs.

Block 6 (Fig. 1) for identifying biometric parameters of passport holder documents is made in the form of a comparator having first 38 and second 39 information and synchronizing 40 inputs, as well as first 41 and second 42 outputs.

Block 7 (Fig. 3) addressing records of documentation of passport documents contains a counter 52 and a delay element 53. The drawing also shows the counting 43 input, as well as address 44 and synchronizing 45 outputs.

Block 8 (Fig. 1) memory is made in the form of random access memory having information 55, address 56 and input 57 control data recording, as well as information 16 output, which is the information output of the workstation.

Block 9 (Fig. 1) of the integration of signal outputs is made in the form of an OR element having signal 46-48 inputs, as well as signal 17 output, which is the first signal output of an automated workstation.

An example of a specific structural embodiment of an autonomous workstation is shown in FIG. four.

A stand-alone automated workstation includes a data processing hardware 60 based on a microcalculator, a workspace 61 for a readable document, a light 62, a wide-angle lens 63 and a miniature video camera 64, structurally located in one housing. The drawing also shows the input 65, output 66 and internal 67 data bus, block remote initiation of the recognition process 68 in the form of a pedal.

Workspace 61 is a transparent glass of dimensions A5 (148 × 210 mm), which allows you to place the entire spread of the passport of a citizen of the Russian Federation on it.

The video camera 64 is located on the lower part of the body of the workstation in order to reduce the number of artifacts associated with reflection, and not in order to obtain an undistorted image. The lighter 62 is made in the form of LED backlighting from several point LEDs, the location and quantity of which is selected on the basis of considerations of sufficient illumination and to reduce the direct effect on the camera of the camera.

All nodes and elements of the workstation are made on standard potential-impulse elements.

Autonomous workstation works as follows.

For control, a citizen presents to the operator a new generation passport in which a microchip is mounted - a crystal in which the owner's biometric data is recorded.

In addition to the built-in memory, the electronic passport has a convenient exchange interface with a reader. The most advanced technology for automated workflow is Inlay technology.

The transponder manufactured using Inlay technology is a thin dacron tape (0.03 mm) with an antenna applied on it and an integrated chip.

The transponder does not require power, it has a fixed 64-bit, recorded at the factory, non-repeating ID number (264 = 18446744073709551616), which allows you to uniquely identify the transponder itself and 32 pages of 64-bit user memory (256 bytes).

If 160 bytes of memory are used to store biometric information, the remaining 96 bytes are used to store additional information.

The transponder allows radio communication with the reader according to the ISO / IEC 15693 protocol. The cost of such a transponder does not exceed $ 0.5. Chips supporting the specified protocol have been developed for recording and reading information. The cost of a chip that implements a radio channel is about $ 5.

To implement an electronic passport, it is enough to paste the transponder into the Russian passport of the established sample, enter the owner code and passport data into the appropriate database. When making changes to the database, information from the database should be duplicated in the chip memory.

Usually, gluing is carried out using a sticker having specially selected adhesion characteristics. When trying to re-stick, the transponder chip is damaged.

Thus, each electronic passport contains biometric information about its owner, a unique number of the transponder glued in, which uniquely corresponds to the number of the passport (which excludes gluing another transponder), as well as the necessary additional information about the owner, including his digital photo.

An electronic passport proving the identity of its owner is scanned by both the visual scanning unit and the microchip interrogation unit at the command of the operator from block 68 (Fig. 4). At the same time, the inspected citizen goes through the process of taking an electronic fingerprint using a reader (not shown in the drawing).

The read data of the microchip is fed to the information input 11 of block 2, where it is recorded by a synchronizing pulse from the reader to the input 13 of the automated workstation.

The microchip data structure is as follows:

The read fingerprint code is fed to the information input 12 of block 3, where it is recorded by a synchronizing pulse coming from the reader to the input 14 of the automated workstation.

After visual scanning and recognition of visual data of the electronic passport from the information input 10 of the automated workstation, a codogram is received, which is entered into block 1 by a synchronizing pulse from the input 13 of the system.

The received codogram has the following structure

From the output of 21 block 1, the content of the entire codogram is fed to the information 55 input of the memory block 8.

From the exit 22 of block 1, the code of the surname, name, patronymic of the owner of the passport goes to the information 28 input of block 4, the other 29 information input of which from the output 24 of block 2 receives the code of the name of the owner of this passport, previously read from the microchip of the passport.

At the same time, the synchronization pulse from the input 13 of the workstation enters the input 30 of block 4 (Fig. 2), is delayed by the delay element 51 for the time the data were entered into blocks 1 and 2, and then it arrives at the synchronizing input of the comparator 50.

By this synchronizing pulse, the comparator 50 of block 4 compares the input codes, and if the identification of the passport holder has not been compared, then the pulse 31 is generated at the output 31 of the block 4, which is transmitted through the input 46 of the OR element to the signal output 17 of the workstation as the signal "ERROR VERTIFICATION OF PASSPORT. "

If the input codes of the identification data at the inputs 28 and 29 of block 4 turned out to be identical, then the comparator 50 of block 4 generates a signal at the output 32, which is fed to the synchronizing 35 input of block 5, and a digital photo code has been sent to one information input 33 of which at this point in time of the verified identity from the output 23 of block 1, and the digital photo code read from the chip integrated in the passport is submitted to another information input 34 of block 5.

By the synchronizing signal from input 35, block 5 compares the input codes, and if they match, the output 37 of block 5 generates a signal arriving at the synchronizing input 40 of block 6.

At this point in time, a fingerprint code received as a result of a survey of the built-in microchip (chip) of an electronic passport was sent to one information input 38 of block 6 from the output 26 of block 2, and a fingerprint code from the output 27 of block 3 was sent to the other information input 39 of block 6 received from the reader.

If the fingerprint codes match, then according to the synchronizing pulse received at the input 40 of block 6, the latter at the output 42 generates a verification signal for the owner of the passport document. This signal, firstly, through the signal output 18 of the workstation is immediately displayed on the panel "PASSPORT VERTIFIED".

Secondly, the same signal is fed to the counting input 43 of block 7 to start the procedure for documenting the fact of successful verification of passport data. From the input 43 of block 7 (Fig. 3), this pulse is supplied to the counting input of the counter 52, increasing its readings by one and thereby setting the next record address on the address 44 output.

From the output 44 of block 7, the address code of the documentation of the data of passport documents arrives at address 56 of the input of block 8 of the memory, information 55 of which receives passport data from output 21 of block 1.

In parallel with this, the synchronizing pulse from the input 43 of the block 7 is delayed by the element 53 during the formation of the address in the counter 52, and then from the output 45 of the block 7 it enters the input 57 of the memory block 8, ensuring the recording of verified passport data.

If, however, during the comparison of the input data of blocks 5 and 6, they do not match, then, as in block 4, the output 36 of block 5 and the output 41 of block 6 will generate signals that will be transmitted through the corresponding inputs of element 9 OR issued to the signal output 17 of the automated workstation as a signal "PASSPORT VERTIFICATION ERROR".

Thus, the introduction of new units has significantly improved the reliability of control of passport documents by implementing procedures for autonomous automatic control of biometric parameters and verification of data from owners of passport documents.

Information sources

1. RF patent No. 127997, 2012

2. RF patent No. 130430, 2012 (prototype).

Claims (1)

A stand-alone automated workstation for controlling passport documents, containing a block for receiving data codes for optical scanning of passport documents, the information and synchronizing inputs of which are the first information and synchronizing inputs of a stand-alone automated workstation, while the first information input of a stand-alone automated workstation is designed to receive electronic passport data from a scanning device, the first synchronizing input of a stand-alone machine of the workstation is intended for receiving synchronizing pulses of the scanning device, and the first information output of the optical scan data codes receiving unit of passport documents is connected to the information input of the memory block, the data codes receiving unit of the integrated integrated circuit (chip) of passport documents, the information input of which is the second information input autonomous workstation designed to receive data codes of integrated integrated circuits we (the chip) of passport documents, and the synchronizing input of the data code receiving unit of the integrated integrated circuit (chip) of passport documents is connected to the first synchronizing input of the stand-alone workstation, the fingerprint receiving unit of passport document holders, the information input of which is the third information input of the autonomous automated a workstation designed to receive fingerprint data from the information output of a reader, blue the synchronizing input of the fingerprint code receiving unit of the passport holder is the second synchronizing an autonomous workstation input intended for receiving synchronizing pulses from the synchronizing output of the reading device, the passport documents documentation addressing unit, the information output of which is connected to the memory block address input, the passport document documentation addressing unit is connected to the control input by the memory block record whose information output is the information output of an autonomous automated ra and a signal output integration unit, the output of which is the first signal output of a stand-alone workstation, characterized in that the stand-alone workstation contains a data identification unit for passport holder data, one information input of which is connected to the second information output of the data code receiving unit optical scanning of passport documents, another information input of the unit for identifying details of passport holder data of documents is connected to the first information output of the passcode documents integrated data integrated circuit chip (chip) passcode documents receiving unit, the synchronizing input of the passport documents owners data identification unit is connected to the first synchronizing input of the stand-alone workstation, and the first output of the passport documents owners data identification unit is connected with the first input of the signal output integration unit, the identification block of digital photos of passport owners x documents, one data input of which is connected with the third informational output of the data reception optical scanning codes passport documents, other identification information input unit owners of digital photo passport documents it is connected to the second information output of the passport documents ID data reception unit of the integrated integrated circuit chip (chip) documents, the synchronizing input of the passport document holders identification digital data unit is connected to the second output of passport documents owners data identification unit, and the first output of the passport document holders digital photo identification unit is connected to the second input of the signal output integration unit, the identification module for biometric parameters of passport owners documents, one information input of which is connected to the third information output of the data codes receiving unit of the integrated integrated circuit (chip) of passport documents, another information input of the identification block of biometric parameters of passport documents owners is connected to the information output of the fingerprint codes receiving unit of passport documents, and the synchronizing the input of the identification block of the biometric parameters of the owners of passport documents is connected to the second output of the block identification of digital photos of owners of passport documents, while the first output of the identification block of biometric parameters of owners of passport documents is connected to the third input of the integration block of signal outputs, and the second output of the identification of biometric parameters of owners of passport documents is the second signal output of an autonomous workstation connected to the counting input block addressing records of passport documents.

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