RU2075777C1 - Device for identification of operator - Google Patents

Abstract

FIELD: computer engineering. SUBSTANCE: device has password memory unit 1, comparison circuit 2, flip-flop 3, keyboard 4, OR gate 5, register 6, OR gates group 7, AND gate group 8, register 9, delay gate 10, AND gate group 11, AND gate group 12, function generator 13, OR gate 14, register 15, counter 16, delay gate 17, AND gate group 18, OR gate 19, clock oscillator 20, flip-flop 21, AND gate 22, differentiating circuit 23, OR gate 24, diode 25, resetting input 26, output line 27, error output 28. Personal password is subjected to non-linear conversion which is hard to reverse in function generator. Result of converting is compared to reference string which is stored in memory unit. System resources are opened for access in case of matching. EFFECT: increased complexity of unauthorized access to resources of computer. 1 dwg

Description

 The invention relates to computer technology, in particular to devices for identification (identification) of a person using electronic means, and can be used to organize authorized access of a person to the software and information resources of an information-computing system.

 A known identification system with electronic identification blocks containing several identification blocks having different electronic circuits corresponding to different code passwords.

 The disadvantage of this system is the low reliability of the identification system, due to the fact that unauthorized access to the system (identification of a human operator) is possible if the operator determines using the electronic computer technology in some way the contents of the predefined table of (password) passwords stored in the storage device .

 The closest in technical essence and the achieved positive effect is a device for restricting unauthorized access, containing a password memory unit, a comparison circuit, an electronic switch, a signaling device, a shift register and a pressure device, on which access codes are manually dialed. They, arriving at the comparison scheme, are compared with a predefined (exemplary) code (password). The comparison scheme controls the electronic switch and, depending on the outcome of the comparison, allows access to the program-technical and information resources of the system or, otherwise, does not allow access and signals about it.

 The disadvantage of this device is its low reliability (identification), due to the fact that if the operator-specialist in computer engineering in any way determines the model passwords stored in the memory block of the system passwords, its unauthorized access to system resources is possible. The likelihood of such unauthorized access must be minimized. Due to this drawback, the known device is not widely used.

 The elimination of these shortcomings is possible by increasing the complexity of unauthorized access to the resources of a computer system if the operator determines the model passwords.

 The device is designed to provide reliable identification. Reliability of identification depends on the type and parameters used for irreversible transformations of nonlinear functional converters.

 The device is implemented on the elements of digital technology, which allows you to pair it with real computer systems to organize the access of a human operator to the resources of a computer system.

 The specified technical result is achieved by the fact that in the identification device of a human operator containing a typesetting device, a password memory unit, a comparison circuit, the first and second registers, the output of the password memory unit being connected to the first inputs of the comparison circuit, a third register, a first, a second are additionally introduced triggers, clock generator, first, second delay elements, functional converter, counter, first, second, third and fourth OR elements, group of OR elements, first, second, third, four th group of elements And, element And, differentiating chain, diode. Moreover, the first output of the comparison circuit is connected to the S-input of the first trigger, the single output of which is connected to the first inputs of the first group of AND elements, the output bus of the typesetter is connected to the second inputs of the group of OR elements and to the D-inputs of the first register, respectively, the output bus of the group of OR elements connected to the D-input of the second register, the output bus of which is connected to the first inputs of the second group of elements And, through a functional converter connected to the D-inputs of the third register, the output bus of which is connected to the first inputs of the third group of elements AND, the output bus of the third group of elements is connected to the second inputs of the group of OR elements, the output bus of the first register is connected to the first inputs of the fourth group of elements AND, the output bus of which is connected to the D-inputs of the counter, the second output of the typesetter is connected to the second the inputs of the fourth group of elements And and with the input of the second trigger, a single output of which is connected to the first input of the element And, the output of the clock generator is connected to the second input of the element And, the output of which oedinen to the inputs of the first and second delay elements and to the first input of the first OR gate, an output of first delay element is coupled to second inputs of the third group of AND gates, the output of the first OR element connected to the R-input of the third register. The installation input to the source device is connected to the first input of the second OR element, with the second input of the first OR element, with the R-inputs of the counter, the first trigger and the second register, with the first input of the third OR element, the output of which is connected to the R-input of the second register. The output bus of the second register is connected to the second outputs of the comparison circuit, the output of the second delay element is connected to the second inputs of the second group of AND elements, the output of the first delay element is connected to the counter input of the counter and to the second input of the third OR element, the first-n-th output of the counter is connected to the first-n-th input of the fourth OR element, respectively, the output of which through a differentiating circuit and a diode is connected to the second input of the second OR element and to the third input of the comparison circuit. The output bus of the first group of elements AND is the output of the device, the second output of the comparison circuit is the error output of the device.

 Comparative analysis with the prototype shows that the inventive device is characterized by the presence of new elements: a register, two triggers, a clock, two delay elements, a functional converter, counter, four OR elements, two groups of OR elements, four groups of AND elements, a differentiating circuit, a diode , and corresponding relationships with other elements of the circuit, which meets the criterion of "novelty." The implementation of all new elements is known from the scientific and technical literature, which meets the criterion of "industrial applicability".

 A device with the described set of new features was not found in the scientific and technical literature. This allows us to conclude that the technical solution meets the criterion of "inventive step".

 When using the invention, a technical result is achieved, consisting in increasing the reliability of identification of a human operator, the operation of the device by increasing the complexity of unauthorized access to the resources of a computer system.

 The invention is illustrated in the drawing. The human operator identification device comprises a password memory unit 1, a comparison circuit 2, a first trigger 3, a typesetter 4, a third OR element 5, a second register 6, a group of OR elements 7, a first group of AND elements 8, a first register 9, a second delay element 10, a second group of AND elements 11, a fourth group of AND elements 12, a functional converter 13, a first OR element 14, a third register 15, a counter 16, a first delay element 17, a third group of AND elements 18, a fourth OR element 19, a clock 20 second trigger 21, eleme t and 22, a differentiating circuit 23, a second OR element 24, diode 25, input 26, a reset unit, output unit 27, the bus error output device 28.

 The output of the password memory unit 1 is connected to the first inputs of the comparison circuit 2, the first output of the comparison circuit 2 is connected to the S-input of the first trigger 3, the single output of which is connected to the first inputs of the first group of elements And 8, the output bus of the typesetter 4 is connected to the second inputs of the first groups of elements AND 8, with the first inputs of the group of elements OR 7 and with D-inputs of the first register 9, respectively. The output bus of the group of elements OR 7 is connected to the D-input of the second register 6, the output bus of which is connected to the first inputs of the second group of elements 11, the output bus of the second group of elements 11 through the functional converter 13 is connected to the D-inputs of the third register 15, the output bus which is connected to the first inputs of the third group of elements And 18. The output bus of the third group of elements And 18 is connected to the second inputs of the group of elements OR 7, the output bus of the first register 9 is connected to the first inputs of the fourth group of elements And 12, the bus which is connected to the D-inputs of the counter 16. The second output of the dialing device 4 is connected to the second inputs of the fourth group of elements And 12 and to the S-inputs of the second trigger 21, the single output of which is connected to the first input of the element And 22. The output of the clock generator 20 is connected with the second input of AND element 22, the output of which is connected to the inputs of the first delay element 17, the second delay element 10 and with the first input of the first OR element 14, the output of the first delay element 17 is connected to the second inputs of the third group of elements AND 18, output the first element OR 14 is connected to the R-input of the third register 15. The input 26 of the installation in the source device is connected to the first input of the second element OR 24, with the second input of the first element OR 14, with R-inputs of the counter 16, the first trigger 3 and the second register 6 , with the first input of the third element OR 5, the output of which is connected to the R-input of the second register 6, the output bus of the second register 6 is connected to the second inputs of the comparison circuit 2, the output of the second delay element 10 is connected to the second inputs of the second group of elements 11, the output of the first element zader ki 17 is connected to the counting input of the counter 6 and to the second input of the third element OR 5, the first-n-th outputs of the counter 16 are connected to the first-n-th input of the fourth element OR 19, respectively, the output of which through the differentiating circuit 23 and the diode 25 is connected to the second input of the second element OR 24 and with the third input of the comparison circuit 2. The output bus of the first group of AND elements is the output 27 of the device, the second output of the comparison circuit 2 is the output 28 of the device error.

 The password memory unit is designed to store exemplary passwords.

 The type-setting device 4 consists of a standard key typing device (type of computer) and is designed to dial the necessary information and to issue a “Execution” signal after this.

 Functional Converter 13 is a discrete device for reproducing nonlinear functions and is intended to form an irreversible (ambiguous) code combination.

 The clock generator 20 is designed to form a sequence of clock pulses.

 The differentiating circuit 23 and the diode 25 are a pulse shaper that generates a pulse when the potentials at the input of the differentiating chain change from a single to a zero level.

 The device operates as follows.

 After power is turned on, input to the installation device receives a pulse that sets the first trigger 3, the first register 9, counter 16, through the second element OR 24, the second trigger 21, through the third element OR 5, the second register 6, through the first element OR 14 the third register 15.

After that, the human operator carries out a set of information that generates a password on the dialing device 4, which enters via the corresponding buses (marked by a double line) with a parallel code into the first register 9 and through the group of elements OR 7 into the second register 6, where this information is stored. In the second register 6, all information that is part of the password is recorded, and in the first register 9, the number P is entered, which is included in the password and is equal to the number of password conversions in the functional converter 15. Then the human operator on the dialer 4 presses the "Execute" button, As a result, the “Execution” signal appears on the second output of the dialing device 4, which is fed to the second inputs of the fourth group of elements And 12 and to the C-input of the second trigger 21. Thus, the second trigger 21 goes from zero to one and with a resolving potential opens its element And 22 from its single output, and the parallel code of the number P, passing through the fourth group of And 12 elements, goes to the single inputs of the triggers corresponding to the bits of the counter 16, and is written to the counter 16. A pulse is received from the clock 20 And 1, which passes through the open element And 22 and appears at the inputs of the first 17 and second 10 delay elements, and also, having passed the first element OR 14, confirms the zero state (or subsequently resets) the third register 15. Through delay time t ₁₀ pulse And 1 opens the second group of elements And 11, and information from the second register 6 is fed to the functional Converter 13, where it is converted. The code combination received at the input of the functional converter 13 is converted to another code combination, which in its content is irreversible (ambiguous) with respect to the code combination received at the input. From the output of the functional Converter 13 information is written in parallel code in the third register 15 and from its output goes to the first inputs of the elements And 18 of the third group. The pulse And 1 through the delay time t ₁₇ appears at the output of the first delay element 17 and through the third element OR 5 sets the second register 6 to zero. At the same time, the same pulse enters the subtracting input of the counter 16, decreasing its value by one, and opens the third group of elements AND 18. The information from the output of the third group of elements AND 18 passes through the group of elements OR 7 and is recorded in the second register 6. Thus, the information the original password has undergone one conversion. Similarly, the information recorded in the second register 6 of the converter is still P-1 times before the complete conversion. The complete conversion of the original password is identified with the fact that there are zeros in all bits of the counter 16. When zeroing the last bit of the counter 16 at the output of the fourth element OR 19, and therefore at the input of the differentiating chain 23, the potential changes from the unit level to zero, as a result of which the output of the differentiating circuit 23 appears the pulse And 2, which passes through the diode 25, the second element OR 24 and goes to the R-input of the second trigger 21. When the pulse And 2 to the R-input of the second trigger 21, it goes to zeros The th state and its zero potential at a single output closes the And 22 element. The And 2 pulse also arrives at the synchronizing input of the comparison circuit 2, and as a result of this, the completely converted source password stored in the second register 6 is compared with the model password stored in the block 1 password memory. If the values of these two passwords do not match, a signal appears at the error output of device 28, which can be used for signaling. If the completely converted source and sample passwords match, a signal appears on the other output of the comparison circuit 2, which is fed to the S-inputs of the first trigger 3 and puts it in a single state. When the first trigger 3 goes into a single state, a resolving potential appears on its single output, which opens the first group of elements And 8 and allows the human operator to use the resources through the typesetter 4, the corresponding bus, the first group of elements And 8 and the output bus of device 27 -computing system.

For the stability of the device and the proper functioning of the individual elements of the circuit, the following inequalities must be satisfied:
1. t ₁₇ > t ₁₀ ;
2. t ₁₇ -t ₁₀ > t ₁₁ + t ₁₃ + t ₁₅ + t ₁₈ ;
3. t ₁₈ + t ₇ > t ₅ ;
4. T ₂₀ > t ₂₂ + t ₁₇ + t ₁₆ t ₁₉ + t ₂₃ + t ₂₅ + t ₂₄ + t ₂₁ ;
5. T ₂₀ > t ₆ + t ₁₁ + t ₁₃ + t ₁₅ + t ₁₈ + t ₇ ;
where t ₅ the response time of the element OR 5;
t ₆ response time of the register;
t ₇ response time of the elements OR 7;
t ₁₀ delay time of the delay element 10;
t ₁₁ response time of the group of elements And 11;
t ₁₃ Response time of the functional Converter 13;
t ₁₅ response time of the register 15;
t ₁₆ counter response time 16;
t ₁₇ delay time of the delay element 17;
t ₁₈ response time of the group of elements And 18;
t ₁₉ response time of the element OR 19;
T _{20 the} period of repetition of clock pulses from a clock generator 20;
t ₂₁ trigger time 21;
t ₂₂ the response time of the element And 22;
t ₂₃ response time of the element 23;
t ₂₄ response time of the element OR 24;
t ₂₅ diode response time 25.

 Thus, the proposed device allows to increase the quantitative and qualitative characteristics of the identification device of a human operator to protect information from unauthorized access.

Improving the quality characteristics is expressed in increasing the complexity of unauthorized access to the resources of a computer system and is achieved:
the use of irreversible (ambiguous) transformations of the code combination;
the ability to change the number of cycles of ambiguous transformations, and hence the level of complexity of transforming a code combination.

 An increase in the quantitative characteristics is also expressed in an increase in the complexity of unauthorized access to the resources of a computer system and is achieved by an increase in the number and length of the initial passwords through the use of a standard key typing device such as an electric printing machine (EPM).

Claims (1)

 A human operator identification device comprising a typesetting device, a password memory unit, a comparison circuit, first and second registers, the output of the password memory unit being connected to the first inputs of the comparison circuit, characterized in that a third register, first and second triggers, a generator are introduced clock pulses, first and second delay elements, functional converter, counter, first, second, third and fourth elements OR, element group OR, first, second, third and fourth groups of elements AND, element , a differentiating circuit and a diode, wherein the first output of the comparison circuit is connected to the S-input of the first trigger, the single output of which is connected to the first inputs of the first group of elements AND, the output bus of the typesetter is connected to the second inputs of the first group of elements AND, with the first inputs of the group of elements OR and with the D-inputs of the first register, respectively, the output bus of the group of OR elements is connected to the D-inputs of the second register, the output bus of which is connected to the first inputs of the second group of AND, the output bus of the second group of elements in And through a functional converter connected to the D-inputs of the third register, the output bus of which is connected to the first inputs of the third group of elements AND, the output bus of the third group of elements AND is connected to the second inputs of the group of elements OR, the output bus of the first register is connected to the first inputs of the fourth group of elements And, the output bus of which is connected to the D-inputs of the counter, the second output of the dialer is connected to the second inputs of the fourth group of elements And and to the S-input of the second trigger, the single output of which is connected to the first input of the And element, the output of the clock generator is connected to the second input of the And element, the output of which is connected to the inputs of the first and second delay elements and with the first input of the first OR element, the output of the first delay element is connected to the second inputs of the third group of And elements, the output of the first element OR connected to the R-input of the third register, the installation input to the initial state of the device is connected to the first input of the second OR element, with the second input of the first OR element, with R-inputs of the counter, the first trigger and the second the first register, with the first input of the third OR element, the output of which is connected to the R-input of the second register, the output bus of the second register is connected to the second inputs of the comparison circuit, the output of the second delay element is connected to the second inputs of the second group of AND elements, the output of the first delay element is connected to counter input of the counter and with the second input of the third OR element, the first n-th outputs of the counter are connected to the first n-th inputs of the fourth OR element, respectively, the output of which is connected through a differentiating circuit and a diode to the second Odom second OR gate and the third input of the comparison circuit, the output bus of the first group of AND gates is an output device, the second output of the comparison circuit is an output device errors.