RU214686U1 - A device for modeling the process of implementing information and technical impact in an automated military system with several false network information objects - Google Patents

Abstract

The utility model relates to the field of automation and computer technology and can be used for scientific research in which it is necessary to obtain probabilistic characteristics of the implementation of information and technical impact (ITI) in an automated military system (AMS) that has an integrated information security system (ISIS) with several false network information objects (NSIO). The device is intended for simulation modeling of the process of implementation of information and technical impact in an automated system for military purposes, which has a comprehensive information security system, including several LSIO. The purpose of creating a utility model is to create a technical tool that makes it possible to increase the reliability of modeling the process of implementing ITS in ASVN by taking into account the possibility of having several LSIOs in the CSIS. The implementation and use of the proposed utility model makes it possible to assess the probabilistic characteristics of the implementation of ITS in ASVN, taking into account the presence of several LSIOs in the CSIS ASVN. The technical result of this utility model lies in the fact that the implementation and use of this device provides an increase in the reliability of modeling the process of implementing ITS in the ASVN due to the most complete consideration of the components of the CSIS of the ASVN, namely, taking into account the possibility of having several LSIOs in its composition.

Description

The utility model relates to the field of automation and computer technology and can be used for scientific research in which it is necessary to obtain probabilistic characteristics of the implementation of information and technical impact (ITI) in an automated military system (AMS) that has an integrated information security system (ISIS) with several false network information objects (NSIO).

The device is intended for simulation modeling of the process of implementation of information and technical impact in an automated system for military purposes, which has a comprehensive information security system, including several LSIO.

A device for simulating a computer virus infection of a local computer network is known (RF Patent for utility model No. 202083, published on January 29, 2021, Bull. No. 4), containing an initial data input device, the first output of which is connected to the first input of the visualization device; the second output of the initial data input device is connected to the first input of the device for setting test options; a database with test options, the output of which is connected to the second input of the device for setting test options; the first output of the device for setting test options is connected to the input of the database with test options; groups of monitoring blocks, the outputs of which are connected to the first input of the decision device; the first output of the solver is connected to the input of the device for evaluating the results; the output of the device for evaluating the results is connected to the second input of the visualization device; the second output of the test options setting device is connected to the second input of the local computer network topology control device; the output of the local computer network topology control device is connected to the first inputs of the computer group; the output of the computer group is connected to the input of the monitoring unit; the device for updating anti-virus databases is connected to the inputs of the group of the computer intrusion detection system; the first outputs of a group of computer attack detection systems are connected to the second computer inputs; the outputs of the EMU group are connected to the corresponding number of inputs of the group of monitoring units; the second output of the solver is connected to the second input of the device for updating anti-virus databases.

This device implements the ability to assess the protection of a local network from infection with a computer virus and select the most secure network topology, as well as determine the requirements for anti-virus protection.

However, this device does not provide the possibility of modeling the process of implementation of ITI in ASVN, taking into account the probabilistic values of overcoming the influence of individual components of the CSIS. Also, this device does not allow assessing the impact of information and technical impacts on an automated system, taking into account the use of such protective equipment as LSIO.

The closest analogue (prototype) in terms of technical implementation and functions performed to the claimed solution is a device for modeling the process of implementing information and technical impact in an automated military system (RF Patent for utility model No. 210727, published on April 28, 2021 Bull. No. 13), containing information input unit, first, second, third, fourth and fifth registers, reversible counter, random number generator, first, second, third, fourth and fifth comparators, first, second, third and fourth counters, first, second, third, fourth and the fifth blocks of elements AND, the first, second and third blocks of elements, the block for displaying and issuing the result, moreover, the outputs of the information input block are connected to the inputs of the first, second, third, fourth and fifth registers and the reversible counter, the outputs of the reversible counter are connected to the inputs of the random number generator and the fifth block of elements AND, the outputs of the random number generator are connected to the input the first, second, third and fourth blocks of elements AND, as well as with the input of the first comparator, the outputs of the first, second, third, fourth and fifth registers are connected to the inputs of the first, second, third, fourth and fifth comparators, respectively, the outputs of the first comparator are connected to inputs of the first counter and the first block of AND elements, the output of the first block of AND elements is connected to the input of the second comparator, the outputs of the second comparator are connected to the inputs of the second block of AND elements and the first block of OR elements, the output of the second block of AND elements is connected to the input of the third comparator, the outputs of the third comparator connected to the inputs of the first and second blocks of OR elements, the output of the first block of OR elements is connected to the input of the third block of AND elements, the output of the third block of AND elements is connected to the input of the fourth comparator, the outputs of the fourth comparator are connected to the inputs of the second counter and the second block of OR elements, the output of the second block of elements OR connected to about the input of the fourth block of elements AND, the output of the fourth block of elements AND is connected to the input of the fifth comparator, the outputs of the fifth comparator are connected to the inputs of the third and fourth counters, the outputs of the first, second and third counters are connected to the inputs of the third block of elements OR, the output of the fourth counter is connected in parallel with the inputs of the fifth block of AND elements and the third block of OR elements, the output of the third block of OR elements is connected to the input of the reversible counter, the output of the fifth block of AND elements is connected to the input of the display and output unit.

The device is intended for simulation modeling of the ITS implementation process in ASVN, which has an integrated information security system.

However, this device does not allow for modeling the process of implementing ITS in the ASVN, which has in its composition a CSIS with several LSIOs.

The purpose of creating a utility model is to create a technical tool that makes it possible to increase the reliability of modeling the process of implementing ITS in ASVN by taking into account the possibility of having several LSIOs in the CSIS.

The technical result, which the utility model is aimed at, is to expand the scope of the device due to the possibility of taking into account the operation of several LSIOs as part of the CSIS.

To achieve this technical result in a well-known device for modeling the process of implementing information and technical impact in an automated military system, containing an information input unit, the first, second, third, fourth and fifth registers, a reversible counter, a random number generator, the first, second, third , the fourth and fifth comparators, the first, second, third and fourth counters, the first, second, third, fourth and fifth blocks of elements AND, the first, second and third blocks of elements, the block for displaying and outputting the result, and the outputs of the information input block are connected to the inputs of the first, second, third, fourth and fifth registers and a reversible counter, the outputs of the reversible counter are connected to the inputs of the random number generator and the fifth block of AND elements, the outputs of the random number generator are connected to the inputs of the first, second, third and fourth blocks of the AND elements, as well as to input of the first comparator, outputs of the first, second, third th, fourth and fifth registers are connected to the inputs of the first, second, third, fourth and fifth comparators, respectively, the outputs of the first comparator are connected to the inputs of the first counter and the first block of AND elements, the output of the first block of AND elements is connected to the input of the second comparator, the outputs of the second comparator are connected with the inputs of the second block of AND elements and the first block of OR elements, the output of the second block of AND elements is connected to the input of the third comparator, the outputs of the third comparator are connected to the inputs of the first and second blocks of OR elements, the output of the first block of OR elements is connected to the input of the third block of AND elements, the output of the third block of AND elements is connected to the input of the fourth comparator, the outputs of the fourth comparator are connected to the inputs of the second counter and the second block of OR elements, the output of the second block of OR elements is connected to the input of the fourth block of AND elements, the output of the fourth block of AND elements is connected to the input of the fifth comparator, the outputs of the fifth comparat the ora is connected to the inputs of the third and fourth counters, the outputs of the first, second and third counters are connected to the inputs of the third block of OR elements, the output of the fourth counter is connected in parallel with the inputs of the fifth block of AND elements and the third block of OR elements, the output of the third block of OR elements is connected to the input of the reverse counter, the output of the fifth block of AND elements is connected to the input of the block for displaying and outputting the result, the sixth register, the second reversible counter, the second random number generator are additionally introduced, and the outputs of the sixth register, the second block of AND elements and the third comparator are connected to the inputs of the second reversible counter, the outputs of the second reversible counter are connected to the inputs of the second random number generator and the second block of OR elements, the output of the second random number generator is connected to the input of the third comparator, the connections of the second block of AND elements with the third comparator and the third comparator with the second block of OR elements are excluded.

Let's consider a set of states describing the implementation of ITI in ASVN, which has CSIS, including: a firewall, a computer attack detection system, object-based information protection tools, N false network information objects.

In FIG. 1 shows the scheme of events during the implementation of the ITI on ASVN, including N LSIO.

A ₀ - initial state ASVN;

A ₁ - ITV penetrated into the zone of the CSSD ASVN and neutralized by the firewall;

A ₂ - ITV penetrated into the zone of the KSZI ASVN, was not neutralized by the firewall and falls into the zone of control by the computer attack detection system;

A ₃ - ITV detected by a computer attack detection system and directed to a false network information object;

A ₄ - ITI was not detected by the computer attack detection system;

A ₄₀ - ITV falls on the first LSIO (chooses LSIO as an object of influence);

A ₄₁ - ITV falls on the second LSIO;

A _4N - ITV falls on the N-th LSIO;

A ₅₁ - ITV neutralized by the first LSIO;

A ₅₂ - ITV neutralized by the second LSIO;

A _5N - ITV neutralized by the N-th LSIO;

A ₆ - ITV is not neutralized by LSIO (or ITV has not chosen any LSIO as an object of influence during the transition from state A ₄ ) and falls into the zone of control of the object information protection means;

A ₇ - ITV is neutralized by the object means of information protection;

A ₈ - ITI is not neutralized by the object information security tools and penetrates into the ASVN (successful implementation of the ITS in the ASVN).

The logical function of the implementation of the ITS, reflecting all possible outcomes for the implementation of the ITS, is presented in the following form:

In FIG. 2 shows a block diagram of the device.

The device contains an information input unit 1, the first, second, third, fourth, fifth and sixth registers 2, 3, 4, 5, 6, 7, the first and second reversible counters 8, 15, the first and second random number generators 10, 16, first, second, third, fourth and fifth comparators 9, 13, 17, 20, 23, first, second, third and fourth counters 11, 22, 26, 27, first, second, third, fourth and fifth blocks of elements AND 12, 14, 19, 21, 28, the first, second and third blocks of elements OR 18, 24, 25, the display and output block 29.

The outputs of the information input unit are connected to the inputs of the first, second, third, fourth, fifth and sixth registers 2, 3, 4, 5, 6, 7 and the first reversible counter 8, the outputs of the first reversible counter 8 are connected to the inputs of the first random number generator 10 and fifth block of elements AND 28, the outputs of the random number generator 10 are connected to the inputs of the first, second, third and fourth blocks of elements And 12, 14, 19, 21, as well as to the input of the first comparator 9, the outputs of the first, second, third, fourth and fifth registers 2, 3, 4, 5, 6 are connected to the inputs of the first, second, third, fourth and fifth comparators 9, 13, 17, 20, 23, respectively, the output of the sixth register 7 is connected to the input of the second reversible counter 15, the outputs of the first comparator 9 connected to the inputs of the first counter 11 and the first block of elements AND 12, the output of the first block of elements And 12 is connected to the input of the second comparator 13, the outputs of the second comparator 13 are connected to the inputs of the second block of elements And 14 and the first block of elements OR 18, the output of the second block of elements AND 14 is connected to the input of the second reversible counter 15, the outputs of the second reversible counter 15 are connected to the inputs of the second random number generator 16 and the second block of elements OR 24, the outputs of the third comparator 17 are connected to the inputs the second reversible counter 15 and the first block of elements OR 18, the output of the second random number generator 16 is connected to the input of the third comparator 17, the output of the first block of elements OR 18 is connected to the input of the third block of elements AND 19, the output of the third block of elements AND 19 is connected to the input of the fourth comparator 20, the outputs of the fourth comparator 20 are connected to the inputs of the second counter 22 and the second block of elements OR 24, the output of the second block of elements OR 24 is connected to the input of the fourth block of elements AND 21, the output of the fourth block of elements AND 21 is connected to the input of the fifth comparator 23, the outputs of the fifth comparator 23 are connected to the inputs of the third and fourth counters 26, 27, the outputs of the first, second and third counters 11, 22, 26 are connected to the inputs of the third block of elements OR 25, the output of the fourth counter 27 is connected in parallel with the inputs of the fifth block of elements AND 28 and the third block of elements OR 25, the output of the third block of elements OR 25 is connected with the input of the first reversible counter 8, the output of the fifth block of elements And 28 is connected to the input of the display unit and the output of the result 29.

The device works as follows. Using the information input block 1, which is a type-setting field, the values of the first, second, third, fourth, fifth and sixth registers 2, 3, 4, 5, 6, 7 are set. in the second register 3 the value of the probability of detecting ITS by the computer attack detection system is recorded, in the third register 4 the value of the probability of choosing a false network information object by information and technical influence as an object of influence is recorded, in the fourth register 5 the value of the probability of neutralization of the LSIO ITS is recorded, in the fifth register 6 the value of the probability of neutralization of the ITI by the object means of information protection is recorded, the number of LSIO is recorded in the sixth register 7. In addition, using the information input block 1, the value of the required number of tests is set. This value is recorded in the first reversible counter 8. From the sixth register 7, data on the number of LSIOs are sent to the second reversible counter 15. From the first reversible counter 8, a signal is sent to the input of the random number generator 10, while the value of the first reversible counter 8 is reduced by one. From the random number generator 10, data is sent to the inputs of the first comparator 9 as well as to the inputs of the first, second, third and fourth block of elements AND 12, 14, 19, 21. From the first register 2, the data is fed to the input of the first comparator 9. In the case when the value of the probability of neutralization of the information and technical impact by the firewall, received from the first register 2, will be greater than the value of the number received from the random number generator 10, the first comparator 9 outputs a signal to the first counter 11. the impact received from the first register 2 will be less than the value of the number received from the random number generator 10, the first comparator 9 outputs a signal to the first block of elements AND 12. When the first block of elements AND 12 receives data from the random number generator 10 and the signal from the first comparator 9, the first block of elements AND 12 outputs the received data to the input of the second comparator ora 13. From the second register 3, the data is fed to the input of the second comparator 13. In the case when the value of the probability of detecting the ITV by the computer intrusion detection system received from the second register 3 is greater than the value of the number received from the random number generator 10 through the first block of elements AND 12, the second comparator 13 outputs a signal to the first block of elements OR 18. In the case when the value of the probability of detecting the ITS by the computer intrusion detection system received from the second register 3 is less than the value of the number received from the random number generator 10 through the first block of elements AND 12 , the second comparator 13 outputs a signal to the second block of elements AND 14.

When the second block of elements AND 14 receives data from the random number generator 10 and the signal from the second comparator 13, the second block of elements And 14 outputs a signal to the second reversible counter 15. The second reversible counter 15 outputs a signal to the second random number generator 16, while the value of the second reversible counter 15 is reduced by one. From the second random number generator 16 and from the third register 4, the data is fed to the inputs of the third comparator 17. In the case when the value of the probability of choosing ITV as the object of influence of the LSIO, received from the third register 4, will be greater than the value of the number received from the second random number generator 16, the third comparator 17 outputs a signal to the first block of elements OR 18. In the case when the value of the probability of choosing ITV as the object of influence of the LSIO received from the third register 4 is less than the value of the number received from the second random number generator 16, the third comparator 17 gives a signal to the second reversible counter 15, the second reversible counter 15, while giving a new signal to the second random number generator 16, and the value of the second reversible counter 15, while decreasing by one. When the value of the second reversible counter 15 becomes equal to zero, it sends a signal to the second block of elements OR 24. When the third block of elements AND 19 receives a signal from the first block of elements OR 18 and data from a random number generator 10, the third block of elements AND 19 issues these data to the input of the fourth comparator 20. From the fourth register 5, the data is fed to the input of the fourth comparator 20. In the case when the value of the probability of neutralization of the LSIO ITV, received from the fourth register 5, is greater than the value of the number received from the random number generator 10 through the third block of elements And 19, the fourth comparator 20 outputs a signal to the second counter 22. In the case when the value of the neutralization probability of the LSIO ITV received from the fourth register 5 is less than the value of the number received from the random number generator 10 through the third block of elements AND 19, the fourth comparator 20 gives a signal to the second block of elements OR 24. Upon receipt of the second block of elements OR 2 4 signals from the fourth comparator 20 or the second reversible counter 24 the second block of elements OR 24 gives a signal to the fourth block of elements AND 21. When the fourth block of elements AND 21 receives data from the random number generator 10 and the signal from the second block of elements OR 24 the fourth block of elements And 21 outputs the received data to the input of the fifth comparator 23. From the fifth register 6, the data is fed to the input of the fifth comparator 23. In the case when the value of the probability of neutralization of the ITV by the object information protection means, received from the fifth register 6, will be greater than the value of the number received from the generator random numbers 10 through the fourth block of elements AND 21, the fifth comparator 23 outputs a signal to the third counter 26. In the case when the value of the probability of neutralization of the ITV by the object means of information protection, received from the fifth register 6, will be greater than the value of the number received from the random number generator 10 through the fourth block of elements AND 21, the fifth comparator 23 gives a signal to the fourth counter 27. When the value of the first, second, third and fourth counters 11, 22, 26, 27 increases by one, these counters give a signal to the third block of OR elements 25, while the third block of elements OR 25 sends a signal to the first reversible counter 8, the value of the first reversible counter 8, in this case, decreases by one. From the first reversible counter 8, the signal is fed to the input of the random number generator 10, and the simulation cycle is repeated until the value of the first reversible counter 8 becomes equal to zero. When the value of the first reversible counter 8 becomes zero, this reversible counter sends a signal to the fifth block of elements AND 28. In this case, the value of the fourth counter 27 through the fifth block of elements And 28 is transmitted to the display and output block 29.

The value obtained in the course of modeling reflects the number of ITS implementations in ASVN for given initial data, taking into account the presence of N false network information objects in the CSIS. Having this value, it is possible to determine the probability of the implementation of ICT in ASVN by the formula:

,

,

where K _ITS - the number of successful implementations of ITS in ASVN;

K _total - the total number of modeling processes.

Thus, the goal set - the creation of a technical tool that makes it possible to increase the reliability of modeling the process of implementing ITS in the ASVN by taking into account the possibility of having several LSIOs in the CSIS - has been achieved.

The claimed utility model is a technical solution related to the device, since the formula of the utility model contains a set of essential features related to the device (namely, a list of the elements used and the relationships between them) sufficient to solve the specified problem and achieve a technical result. The above signs are essential, because. they affect the possibility of obtaining a technical result, i.e. are in a causal relationship with the specified result. The absence of one or more of the signs will lead to the inoperability of the device and will not allow you to get the claimed result.

The implementation and use of the proposed utility model makes it possible to assess the probabilistic characteristics of the implementation of ITS in ASVN, taking into account the presence of several LSIOs in the CSIS ASVN.

The technical result of this utility model lies in the fact that the implementation and use of this device provides an increase in the reliability of modeling the process of implementing ITS in ASVN due to the most complete consideration of the components of the CSIS ASVN, namely, taking into account the possibility of having several LSIOs in its composition.

The described device for modeling the process of implementing information and technical impact in an automated military system with several false network information objects can be implemented using nodes and blocks known in the field of radio electronics, interconnected, providing structural and functional unity.

Claims (1)

A device for modeling the process of implementing information and technical impact in an automated military system with several false network information objects, containing an information input unit, the first, second, third, fourth and fifth registers, the first reverse counter, the first random number generator, the first, second, third, fourth and fifth comparators, first, second, third and fourth counters, first, second, third, fourth and fifth blocks of AND elements, first, second and third blocks of OR elements, block for displaying and outputting a result, moreover, the outputs of the information input block are connected with the inputs of the first, second, third, fourth and fifth registers, as well as the first reversible counter, the outputs of the first reversible counter are connected to the inputs of the first random number generator and the fifth block of AND elements, the outputs of the first random number generator are connected to the inputs of the first, second, third and fourth blocks of elements AND, as well as with input ode of the first comparator, the outputs of the first, second, third, fourth and fifth registers are connected to the inputs of the first, second, third, fourth and fifth comparators, respectively, the outputs of the first comparator are connected to the inputs of the first counter and the first block of AND elements, the output of the first block of AND elements is connected with the input of the second comparator, the outputs of the second comparator are connected to the inputs of the second block of AND elements and the first block of OR elements, the output of the third comparator is connected to the input of the first block of OR elements, the output of the first block of OR elements is connected to the input of the third block of AND elements, the output of the third block of AND elements connected to the input of the fourth comparator, the outputs of the fourth comparator are connected to the inputs of the second counter and the second block of OR elements, the output of the second block of elements OR is connected to the input of the fourth block of elements AND, the output of the fourth block of elements AND is connected to the input of the fifth comparator, the outputs of the fifth comparator are connected to the inputs third its and the fourth counters, the outputs of the first, second and third counters are connected to the inputs of the third block of OR elements, the output of the fourth counter is connected in parallel with the inputs of the fifth block of AND elements and the third block of OR elements, the output of the third block of OR elements is connected to the input of the first reversible counter, the output of the fifth block of elements AND is connected to the input of the block for displaying and issuing the result, characterized in that the sixth register, the second reversible counter and the second random number generator are introduced into the device, and the outputs of the information input block are connected to the input of the sixth register, the output of the sixth register is connected to the input of the second reversible counter, the output of the second block of AND elements is connected to the input of the second reversible counter, the outputs of the second reversible counter are connected to the inputs of the second random number generator and the second block of OR elements, the second output of the third comparator is connected to the input of the second reversible counter, the output of the second generator is scientific numbers is connected to the input of the third comparator.

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