RU2637987C1 - Biometric device for access subject verification - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: device contains a biometric parameter scanner 1, a decoder 2, a recurrent shift register withe the linear feedback 3, a one-way OR-NO gate 4, a manual password input 5, a subtractor 6, the first multi-input OR-NO gate 7, a clock pulse generator 8, the first two-input AND gate 9, the second multi-input OR-NO gate 10, the second two-input AND gate 11, a configuration input of the recurrent shift register with the linear feedback 12, an output of the access authorisation signal issuance 13.

EFFECT: increasing the reliability of the device and reducing its hardware resources.

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Description

The invention relates to computer technology, in particular to devices for identification and authentication of an access subject (SD) using electronic means based on biometric parameters, and can be used to organize authorized access of SD to software, hardware and information devices and resources of an information-computing system.

It is known [1] a digital identification device for a human operator containing a password memory block, a comparison circuit, a first trigger, an error signal output, a first group of AND elements, an output connecting a typesetting device to the protected system, typesetting device, a group of OR elements, a register , non-linear functional converter, the first subtracting counter, the second group of AND elements, the first AND element, the first OR element (with inverse input), the second trigger, the input on which the pulse appears when the power is turned on, the second electronic OR ment, the second AND gate, the second up counter, decoder, a clock generator (GTI), a second AND gate, second summing counter and decoder, a second shift register, the output signal "lock" and the third OR gate.

The disadvantage of this device is the low reliability associated with the presence of a memory unit for storing passwords, and increased amounts of hardware resources.

The closest in essence the technical solution and the achieved positive effect is [2] a discrete identification device for a human operator, containing a password memory unit, a comparison circuit, three triggers, two registers, two groups of AND elements, a typesetter, a group of OR elements, a nonlinear functional converter , two counters, five elements AND, four elements OR, decoder, GTI.

The disadvantage of this device is also the low reliability associated with the presence of a memory unit for storing passwords, and increased amounts of hardware resources.

The aim of the invention is to increase the reliability of the device and reduce its hardware resources.

This goal is achieved by the fact that a biometric parameter scanner, the outputs of which from the 1st to the k- is introduced, is introduced into the biometric verification device of the access subject, including a decoder, a manual password entry device, a subtracting counter, the first and second two-input logic elements AND, a clock generator; th are connected to the inputs from the 1st to the kth decoder; the decoder outputs 1 through n are connected to the inputs of the initial filling from the 1st through n-th recursive shift register with linear feedback (RRSLOS), while the input of the RRSLOS configuration setting is connected to the RRSLOS configuration input, which is the input of the device, RRSLOS clock pulse input is connected to the counting pulse feed output of the subtracting counter, and RRSLOS outputs from the 1st to (n-1) -th are connected to the inputs from the 1st to (n-1) -th of the first multi-input logic element OR- NOT, while the n-th output of RRSLOS is connected to the input of a single-input logical OR-NOT element, the output of which is connected to the nth input of the first multi-input logical element OR-NOT; the outputs of the manual password input device from the 1st to the n-th are connected to the initial filling inputs from the 1st to the n-th subtracting counter, and the (n + 1) -th output of the manual password input device is connected to the 1st input of the first two-input the logical element And, the second input of which is connected to the output of the clock generator, and the output of the first two-input logic element And is connected to the input of the clock pulses of the subtracting counter, while the outputs from the 1st to the n-th subtracting counter are connected to the inputs from the 1st by the nth second multi-input logic of an OR-NOT element, the output of which is connected to the first input of the second two-input logical element AND, the first input of which is connected to the output of the first multi-input logic element OR, and the output is connected to the output of the access permission signal, which is the output of the device.

The block diagram of the proposed device is presented in FIG. 1 and includes: a biometric parameter scanner 1, a decoder 2, a linear feedback feedback shift register 3, a single-input logic element OR-NOT 4, a manual password input device 5, a subtracting counter 6, a first multi-input logic element OR-NOT 7, a clock generator pulses 8, the first two-input logic element AND 9, the second multi-input logic element OR-NOT 10, the second two-input logic element AND 11, the configuration input of the recurrent shift register with linear feedback 12, the output signal is allowed 13 I have access.

In a static form, the elements of the proposed device are interconnected as follows (Fig. 1): the outputs of the scanner of the biometric parameter 1 from the 1st to the kth are connected to the inputs from the 1st to the kth of the decoder 2; the outputs of the decoder 2 from the 1st to the n-th are connected to the initial filling inputs from the 1st to the n-th RRSLOS 3, while the input of the RRSLOS 3 configuration setting is connected to the RRSLOS 12 configuration input, which is the device input, the RRSLOS clock pulse input 3 is connected to the output of the supply of the counting pulses of the subtracting counter 6, and the outputs of the RRSLOS 3 from the 1st to the (n-1) th are connected to the inputs from the 1st to the (n-1) of the first multi-input logic element OR-NOT 7 , while the n-th output of RRSLOS 3 is connected to the input of a single-input logic element OR NOT 4, whose output is under for prison to the n-th input NOR 7 of the first multi-input NAND gate; the outputs of the manual password input device 5 from the 1st to the nth are connected to the initial filling inputs from the 1st to the nth subtractive counter 6, and the (n + 1) -th output of the manual password input device 5 is connected to the 1st the input of the first two-input logic element And 9, the second input of which is connected to the output of the clock generator 8, and the output of the first two-input logic element And 9 is connected to the input of the clock pulses of the subtracting counter 6, while the outputs from the 1st to the n-th subtracting counter 6 connected to inputs 1 through n of the second multi-input logical OR-NO element 10 whose output is connected to the first input of the second two-input AND gate 11 having a first input connected to the output of the first multi-input logic gate of the NOR 7, and an output connected to the output permitting access signal 13 is an output device.

The functioning of the device is as follows: before starting the operation of the device from the input of the RRSLOS configuration 12, the value of the key K (located at the access administrator) corresponding to the linear feedback setting of the RRSLOS 3 is supplied to the input of the RRSLOS 3 configuration, a lot of numerical passwords P = {P ₁ , P ₂ , ..., P _s ), while the i-th numeric password P _i corresponds to the biometric parameter B _i : B _i ∈ В (i = 1, 2, ..., s) of the i-th access subject.

The correspondence of the biometric parameter B _{i to the} password P _i during the operation of the device is established as follows: the scanner of the biometric parameter 1 transmits the k bit digitized value B _i to the inputs of the decoder 2, where it is converted to an n-bit sequence, which from the outputs of the decoder 2 goes to the inputs of the initial filling RRSLOS 3. From the first n outputs of the manual password input device 5, an n-bit sequence corresponding to the number of clock cycles is supplied to the inputs of the initial filling of the subtracting counter 6 in RRSLOS 3, necessary for setting the values of the memory cells of RRSLOS 3 to the 0th state, with the exception of the least significant bit (takes the value 1). The clock count starts after the high signal is received from the (n + 1) -th output of the manual password input device 5 to the first input of the first two-input logic element And 9, which ensures the passage of clock pulses supplied from the GTI 8 to the input of the clock pulses of the subtracting counter 6, which in turn gives out counting pulses to RRSLOS 3. When zeroing the subtracting counter 6 at the output of the second multi-input logic element OR-NOT 10, a high signal value is generated, which is fed to the first input One of the second two-input logic element And 11, which ensures the passage of a high signal to the output of the access permission signal in the case of setting the memory cells of RRSLOS 3 to the 0th value, with the exception of the least significant bit (takes the value 1), while generating a high signal from the memory cells RRSLOS 3 provides a single-input logic element OR-NOT 4, inverting the high signal of the least significant bit of RRSLOS 3, and the first multi-input logic element OR-NOT 7, inverting the low signals incoming from the outputs of the RRSLOS 3 and single-input logic element OR NOT 4. Moreover, in the case of establishing RRSLOS 3 in all possible combinations different from the previously indicated (00 ... 001), the circuit of logic elements 4 and 7 generates a low signal that corresponds to the access ban.

Thus, in contrast to the known technical solutions, the technical effect of the proposed device is achieved by introducing a biometric parameter scanner and a recursive shift register with linear feedback, which together provide the ability to identify and authenticate the access subject without the use of password memory blocks, which provides higher reliability devices compared to the prototype. The exclusion from the prototype circuit of the password storage memory block, the comparison circuit, additional counters and blocks of logical elements provides a significant reduction in the amount of hardware resources of the device.

The proposed device can be implemented using the modern element base of programmable logic integrated circuits of Altera and Xilinx firms or on the element base of Atmel microcontrollers. The device can use various biometric scanners (fingerprint, iris, vein pattern, etc.), offered in a wide range of digital devices on the market.

Literature

1. RU, 2317581, 2008.

2. RU, 2384880, 2009.

Claims (1)

A biometric verification device of the access subject, including a decoder, a manual password input device, subtracting a counter, first and second two-input logic elements AND, a clock generator, characterized in that a biometric parameter scanner is introduced, the outputs of which from the 1st to the kth are connected to inputs from the 1st to the kth decoder; the decoder outputs 1 through n are connected to the inputs of the initial filling from the 1st through n-th recursive shift register with linear feedback (RRSLOS), while the input of the RRSLOS configuration setting is connected to the RRSLOS configuration input, which is the input of the device, RRSLOS clock pulse input is connected to the counting pulse feed output of the subtracting counter, and RRSLOS outputs from the 1st to (n-1) -th are connected to the inputs from the 1st to (n-1) -th of the first multi-input logic element OR- NOT, while the n-th output of RRSLOS is connected to the input of a single-input logical OR-NOT element, the output of which is connected to the nth input of the first multi-input logical element OR-NOT; the outputs of the manual password input device from the 1st to the n-th are connected to the initial filling inputs from the 1st to the n-th subtracting counter, and the (n + 1) -th output of the manual password input device is connected to the 1st input of the first two-input the logical element And, the second input of which is connected to the output of the clock generator, and the output of the first two-input logic element And is connected to the input of the clock pulses of the subtracting counter, while the outputs from the 1st to the n-th subtracting counter are connected to the inputs from the 1st by the nth second multi-input logic of an OR-NOT element, the output of which is connected to the first input of the second two-input logical element AND, the first input of which is connected to the output of the first multi-input logic element OR, and the output is connected to the output of the access permission signal, which is the output of the device.

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