RU2728514C1 - Method of justifying reliability level of software of weapons, military and special equipment - Google Patents

Abstract

FIELD: electrical communication engineering.

SUBSTANCE: invention relates to communication engineering and can be used in military systems, particularly, to recovery of military and special equipment (WMSE) in field conditions. For this purpose, remote control of WMSE software technical state of WMSE software registration files extraction, determining the presence of recovered WMSE software registration files, sending WMSE software registration files to the automated control system, diagnostics and forecasting database, estimating reliability of the WMSE software, determining the type of the WMSE software technical state, activation of a bootable carrier with a backup operating system, installation of an image of a failed operating system of the WMSE software, establishment of a backup copy of the operating system of the WMSE software, activating a data recovery utility, backing up recovered WMSE software data, prediction of WMSE software update parameters, and WMSE software updating.

EFFECT: technical result of the invention is to increase reliability of monitoring the technical condition of the weapons, military and special equipment (WMSE) by enabling remote monitoring of the technical state and recovery of the WMSE software, as well as prediction of software update parameters.

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Description

The invention relates to weapons, military and special equipment and systems for military purposes, in particular to the field of restoration of weapons, military and special equipment in the field.

Interpretation of terms used in the application for the alleged invention.

Recovery is a process and an event consisting in the transition from an inoperative state to an operable one (GOST 27.002 - 89. Reliability in technology. Terms and definitions. - M: Standartinform, 1990. - 70 s, p. 12).

Armament, military and special equipment (AME) - a set of weapons and technical means that ensure its use: missiles, ammunition of all types and their means of delivery to targets; aiming, launch, guidance and control systems; devices and adaptations of technical and special support for the preparation of weapons for use (War and peace in terms and definitions. Military-technical dictionary / edited by D.O. Rogozin, doctor of technical sciences. - M .: "Veche", 2016 . - 640 s, p. 342).

The Unified Telecommunication Network (ESE) is a set of technologically interconnected public telecommunication networks, dedicated networks, technological communication networks connected to the ESE, special purpose communication networks and other telecommunication networks for transmitting information using electromagnetic systems (Lomovitsky V.V. construction of systems and networks of information transmission / Lomovitsky V.V., Mikhailov A.I., Shestak K.V., Schekotikhin V.M. - M .: Hotline - Telecom, 2005. - 382 p. 160).

Reliability of a software tool is a set of properties characterizing the ability of a software tool to maintain a given level of suitability under given conditions for a given time interval. The reliability of software, which are part of a specific information processing system, can be part of the attributes of its quality along with its reliability as a technical system (GOST 28806-90. Quality of software. - M: Standartinform, 1992. - 8 p. 3) ...

Software tool - an object consisting of programs, procedures, rules, as well as, if provided, accompanying documentation and data related to the functioning of the information processing system. (GOST 28806-90. The quality of software. - M .: Standartinform, 1992. - 8 p, p. 1).

An operating system is a complex of interrelated programs designed to manage computer resources and organize interaction with a user (Gordeev A.V. Operating systems: Textbook for universities. - 2nd ed. - SPb .: Peter, 2007. - 416 p. 28).

Failure of an operating system (error) is an abnormal termination of a program or an operating system when they cease to function normally (Pershikov V.I. Explanatory Dictionary of Informatics. - M .: Finance and Statistics, 1991. - 536 p, p. 245).

Software - a set of computer programs and program documents necessary for the operation of these programs (GOST R51904-2002. Software for embedded systems. General requirements for development and documentation. - M .: Standartinform, 2005. - 67 p. 3).

The known method is implemented in an automated complex for monitoring and diagnostics (Invention "Automated complex for monitoring and diagnostics", patent RU 2257604 C2, G05B 23/02, Н04В 17/00, publ. 27.07.2005, bull. No. 21).

The method consists in monitoring the nodes of radio electronic equipment (REA) connected to an automated monitoring and diagnostics complex, which allows, based on the totality of reference test signals supplied to the REA node and the resulting set of measured response signal parameters, to identify faulty REE nodes, as well as to diagnose them in order to localization (detailing) of the place of failure for the subsequent repair of faulty radio electronic components.

- техническим средствам аппаратно-программных комплексов (АПК) АСКДП, осуществляется подключение m - МРО k - средствам связи, АСКДП осуществляет удаленный контроль технического состояния оборудования средств связи. После восстановления работоспособного состояния производится отключение k - средств связи и m - МРО средств связи от АСКДП и k - средств связи от m - МРО средств связи и осуществляется дальнейшее функционирование АСКДП, m - МРО средств связи и k - средств связи, исходя из поставленных задач, или их свертывание для перемещения в заданные районы.The closest in technical essence and functions performed by the analogue (prototype) to the claimed one is a method of ensuring timely communication (patent RU No. 2646598 C1, Н04В 17/00, published 03/16/2018, bull. No. 7), which consists in the control of radio electronic equipment units ... At the same time, an automated control, diagnostics and forecasting system (ASKDP) is remotely formed and deployed, "-points of access to the channels of the Unified Telecommunication Network of the Russian Federation (ESE) are formed, m - mobile repair units (MPO) are deployed, and k - communication facilities, remote connection of deployed m - MPO communication facilities and k - communication facilities to

- technical means of hardware and software complexes (AIC) of ASKDP, connection is made to m - MPO k - to communication facilities, ASKDP carries out remote control of the technical condition of communication equipment. After the restoration of the operable state, k - communication facilities and m - communication facilities MPO are disconnected from ASKDP and k - communication facilities from m - communication facilities MPO and further functioning of ASKDP is carried out, m - communication facilities MPO and k - communication facilities, based on the assigned tasks , or collapsing them to move to specified areas.

A technical problem in this area is the low reliability of monitoring the technical state of weapons, military and special equipment due to the lack of the possibility of monitoring the technical condition and restoration of software weapons, military and special equipment, as well as predicting the parameters of updating software.

The technical problem is solved by creating a method for substantiating the level of reliability of software weapons, military and special equipment, which makes it possible to increase the reliability of monitoring the technical condition of weapons, military and special equipment due to the possibility of remote monitoring of the technical condition and restoration of software weapons, military and special equipment, as well as forecasting software update options.

The technical problem is solved by the fact that the method of substantiating the level of reliability of software for weapons, military and special equipment (VMS), which consists in the fact that: form and deploy an automated control, diagnostics and forecasting system (ASKDP), form n - access points to the ESE, deploy m - MPO and k - VVST, remotely connect m - MPO to k - VVST, remotely connect m - MPO and k VVST to ASKDP, form a set of commands to diagnose and / or restore PS k - VVST, disconnect m - MPO from k - VVST, disconnect m - MRO and k - VVST from ASKDP, carry out further functioning of ASKDP and m - MRO or roll up m - MRO to move to specified areas, according to the invention added: carry out remote control of the technical state of the substation k - VVST, while retrieve the registration files of the SS k - VVST, determine the presence of the extracted registration files of the SS k - VVST, send the registration files of the SS k - VVST to the ASKDP database (DB), assess the reliability of the SS k - VVST, determine the type of technical state of the SS k - VVST, activate the bootable media with the backup OS, mount the image of the failed OS SS k - VVST, install the backup copy of the OS SS k - VVST, activate the data recovery utility (ATC), back up the recovered data SS k - VVST, predict the parameters of updating SS k - VVST, update SS k - VVST.

The listed new set of essential features makes it possible to increase the reliability of monitoring the technical condition of weapons, military and special equipment due to the possibility of remote control, restoration of the technical condition and forecasting the parameters of updating the military hardware system.

The analysis made it possible to establish that there are no analogues identical to the features of the claimed method, which indicates that the claimed method meets the "novelty" condition of patentability.

The results of the search for known solutions in this and related fields of technology in order to identify features that coincide with the distinctive features of the prototype of the features of the claimed object have shown that they do not follow explicitly from the prior art. The prior art also does not reveal the influence of the transformations envisaged by the essential features of the claimed invention on the achievement of the specified technical result. Therefore, the claimed invention meets the "inventive step" requirement of patentability.

The "industrial applicability" of the method is due to the presence of an element base, on the basis of which devices that implement this method can be made to achieve the purpose specified in the invention.

The claimed method is illustrated by drawings, which show:

fig. 1 - diagram of remote connection of deployed m - MPO to k - VVST, m - MPO and k - VVST to ASKDP through n - access points to ESE;

fig. 2 is a diagram explaining the method for substantiating the reliability level of the substation k - VVST;

fig. 3 is a diagram explaining the procedure for remote monitoring of the technical condition of the substation k - VVST.

Figure 1 shows a diagram of the remote connection of deployed m - MPO (element 1.2) to k - VVST (element 1.1), m - MPO and k - VVST to ASKDP (block 1.4) through n - access points to the ESE (block 1.3), when In this case, the architecture of a typical ASKDP is built according to the main-modular principle by aggregating from a basic set of software-controlled modules for performing specific tasks (Posuponko N.V. Automated control systems, diagnostics and forecasting. Textbook / Rostov on Don, 2008. - 79 p. , pp. 22-27, 67-68).

Modules are assembled in a single construct and are combined with each other through a standard interface. The structure of hardware and software ASKDP allows you to modify its composition, while keeping the main part of the hardware and software unchanged (A. G. Dmitrenko, A. V. Blinov and others. Technical diagnostics. Assessment of the state and forecasting the residual life of technically complex objects. / Ed. D. Nefedieva - Penza: FGBOU VPO "Penza State University", 2013. - 62 p., Pp. 51-58).

The use of software-controlled modules and automated workstations (AWPs) with high-performance electronic computers (computers) as part of the ASKDP makes it possible, on the basis of modern programming tools, to implement in an automated mode algorithms for monitoring the technical state of the k-VVSTS, to simplify the processing, registration and storage procedure information on the technical condition of the objects of control in a structured database (DB), as well as to predict the parameters of updating the PS k - VMST.

Remote connection of deployed m - MPO to k - VVST, m - MPO and k - VVST to ASKDP is carried out using unified channels, on the basis of which standard channels are formed for transmitting signals of all types of communication (Fundamentals of building systems and networks of information transmission. Tutorial for universities / V.V. Lomovitsky, A.I. Mikhailov, K.V. Shestak, V.M.Schekotikhin; under the editorship of V.M.Schekotikhin - Moscow: Hotline - Telecom, 2005 .-- 382 p. , p. 183).

The formation of the required set of commands for remote control of the substation k - VVST is carried out by specialized microprocessor systems (programmable controllers) with a built-in set of means for data input-output (information processing) and the installed software (software) ASKDP, allowing to implement the functions of remote control of equipment and functional redundancy sets of equipment in real time without the participation of an operator (1. Grebeshkov A.Yu. Microprocessor systems and software in communications: Textbook. - Samara, PSUTI, 2009 - 298 p., ill., p. 42- 46, 78-86. 2. Emelyanov V.E. Hardware of telecommunication systems: textbook. - M .: MGTU GA, 2015. - 156 p., Ill., Pp. 34-63. 3. GOST R IEC 61131 -1-2016 Programmable controllers Part 1. General information - M .: Standartinform, 2016).

The structural and topological construction of the ESE and its constituent networks assumes its presentation by quantitative indicators through the corresponding parameters, as well as a description of the composition, configuration and interconnection of individual elements, taking into account the methods of binding, the number of access points and the coordinates of the regions of their location (Fundamentals of building systems and transmission networks Textbook for universities / V.V. Lomovitsky, A.I. Mikhailov, K.V. Shestak, V.M.Schekotikhin; edited by V.M.Schekotikhin - M .: Hotline - Telecom, 2005 - 382 p., P. 57).

Access points for binding terminal devices (k - VVST, m - MPO and ASKDP) are located, as a rule, at the facilities of the public communication network ESE.

The software reliability is defined as the level at which the software system meets the specified requirements and is suitable for operation. Glase R. Guide to reliable programming / Per. from English. Yu.P. Kondranina, V.M. Rabinovich. - M .: Finance and statistics, 1982 .-- 256 p., Ill., P. 21.

A diagram explaining the method for substantiating the level of reliability of the PS k -VBST is presented in figure 2, where in block 1 the input data is carried out: the number of m - MPO; number k - AME; number n - access points to the ESE; admissible value of the error rate (К _ОШД ) PS k - VVST.

In block 2, remote formation and deployment of ASKDP, deployment of m - LRO, deployment of k - weapons and military equipment, as well as n - access points to the ESE is carried out.

The structure, principle of building a typical ASKDP and requirements for it are presented in the books: 1. Davydov PS. Technical diagnostics of electronic devices and systems. - M .: Radio and communication, 1988. - 256 p. 165-170, 207-214; 2. Posuponko N.V. Automated control systems, diagnostics and forecasting. Textbook / Rostov on Don, 2008. - 79 p. 22-27, 67-68; 3. A.M. Labunets, V.A. Lyubimov et al. Theoretical foundations of the technical operation of telecommunication systems: textbook / under the general. ed. A.M. Labunza. - Orel: Academy of the FSO of Russia, 2010. - 299 p, pp. 272-279.

The basic architectures of typical ASKDP are described in the tutorial by A.G. Dmitrenko, A.V. Blinov and other Technical diagnostics. Assessment of the condition and prediction of the residual life of technically complex objects. / Ed. D.I. Nefedieva - Penza: FGBOU VPO "Penza State University", 2013. - 62 p., Pp. 51-58.

The procedure and features of the deployment of m - MPO are described in the books: 1. Technical operation of communications. Part I. P.I. Barashkov, A. Ya. Grechkosiy, V.V. Krolevetsky / Ed. AND I. Grechkosia - L .: VAS, 1980 .-- 302 p; 2. V.V. Durynin, V.A. Semiryaga Hardware technical support. Tutorial. SPb .: VUS, 1999 - 72 p.

The procedure and features of the deployment of k - military equipment are described in books and tutorials: 1. P.K. Altukhov, I.A. Afonsky et al. Fundamentals of the theory of command and control. / Ed. Altukhova P.K. - M .: Voenizdat, 1984 .-- 221 p. 19, 146-150 .; 2. Textbook of a sergeant of motorized rifle troops. M .: Military publishing house. Ministry of Defense of the Russian Federation, 2004. - 309 p., Pp. 281-290.

In block 3, using a wireless local area network, the deployed m - MPOs are remotely connected to the k - VVST, and using n - access points to the ESE, a remote connection of m - MPO and k - VVST to the ASKDP is carried out.

The features of the construction and the procedure for the functioning of wireless local area networks are described in the book V. Strolling. Wireless communication lines and networks. - M .: Williams, 2003 .-- 640 p., Pp. 69-99, 129-167.

The features of the construction and the procedure for the functioning of the ESE, standard channels and paths of the ESE, as well as the procedure for their use in the interests of servicing terminal devices and users are described in the book: V.V. Lomovitsky. Fundamentals of building systems and networks of information transmission / Lomovitskiy V.V., Mikhailov A.I., Shestak K.V., Schekotikhin V.M. - M .: Hotline - Telecom, 2005. - 382 p., Pp. 156-183.

The main characteristics and classification of typical technical means (means of control and diagnostics) available in the ASKDP are described in the book: Davydov P.S. Technical diagnostics of electronic devices and systems. - M .: Radio and communication, 1988 .-- 256 p., Pp. 140-147.

In block 4, the remote control of the technical condition of the substation k - VVST (Fig. 3) is carried out.

In block 4.1, the files of registration of PS k - VVST are extracted. The procedure for extracting registration files and methods of remote file exchange are described in the book: Computers, Networks, Internet: Encyclopedia. 2nd ed. / Ed. Yu.N. Novikov. - SPb .: Peter, 2003 .-- 832 p., Pp. 503-551, 631-673.

In block 4.2, the presence of registration files for PS k - VVST is determined. The presence of files is determined by the fact that the memory of the AWS ASKDP servers is filled with the corresponding number of bytes with the corresponding unique name.

The basic principles, methods and features of the analysis of log files are described in the books: 1. Dubois P. My SQL / Per. from English. N. Voronin - M .: Williams, 2004. - 1056 s, p. 585; 2. Chapter XXV Web Log Analysis: Diversity Of Research Methodologies / Dr. Jim Jansen, Handbook of Weblog Analysis ISBN 978-1-59904-974-8; 3. Ward B. Internal structure of LINUX. - SPb .: Peter, 2016 .-- 384 p., P. 84-187; 4. Kolisnichenko D.N. From beginner to professional. - 3rd ed., Rev. and add. - SPb .: BHV-Petersburg, 2011 - 565 p .: ill., P. 475-477.

The basic principles and features of the file structure and information presentation are described in the tutorial: Shaporev S.D. Informatics. Theoretical course and practical training. - SPb .: BHV-Petersburg, 2008 .-- 480 p., Pp. 35-42.

The concept, principles of organization and structure of AWP are described in the book: Mogilev A.V. Information retrieval and storage technologies. Control automation technologies / A.V. Mogilev, L.V. Listrova. - SPb .: BHV-Petersburg, 2012 .-- 320 p., Pp. 207-213.

If the registration files of the SS k - VVST are not available, control is transferred to block 19, in which a set of commands for m - MPO is formed to diagnose and / or restore the failed SS k - VVST.

If the registration files of the PS k - VVST are available, control is transferred to block 4.3, in which the registration files of the PS k - VVST are sent to the ASKDP DB.

The procedure for storing the information used, as well as the features of the construction and functioning of the database, are described in the academic manual: Romanova Yu.D. Computer science and information technology. Lecture notes: textbook. manual / Yu.D. Romanova, I.G. Forester. - 2nd ed., Rev. and additional - M .: Eksmo, 2009 - 320 p., pp. 246-284.

Block 4.4 evaluates the reliability of the SS k - IMST. The reliability of the PS k - VVST is determined by the formula:

where K _ОШ - error rate of PS k - VVST;

n _ОШ - the number of detected errors in the data of the PS k - VMS;

n _TOTAL is the total amount of data in the PS k - VVST.

An error should be understood as an incorrectness, inaccuracy or distortion of the process of functioning of the PS k - VVST.

Data is understood as information presented in a form suitable for processing by automatic means, with the possible participation of a person (clause 1 of Table 1 of GOST 15971-90).

The main types of errors that arise during the operation of the PS are described in the books: 1. Lipaev V.V. Software design: Textbook for universities in the specialty "Automated information processing and control systems" - M .: Higher school, 1990. - 303 p .; 2. Stepanenko O.S. First aid PC. Crash analysis and troubleshooting. M .: Publishing house "Williams", 2005. - 432 p.

The results of the estimation of the K _OS are transmitted to block 5.

In block 5, the comparison and evaluation of the results of remote monitoring of the technical state of the substation k - VVST (Razumny V.M. Assessment of the parameters of automatic control. M .: Energiya, 1975. - 80 s. Ill., Pp. 8-24) is carried out and is determined type of technical condition of substation k - VVST.

Determination of the type of technical condition of the SS k - VVST is carried out according to the results of comparing the value of К _ОШ with the values of the error rate of the admissible К _ОШД .

The basic concepts of the types of technical condition of the SS, as well as the concept of error, are described in the textbook by V.A. Blagodatskikh. and others. Standardization of software development: Textbook. Manual - M .: Finance and Statistics. 2003. - 288 p .: ill., Pp. 133-142.

If К _ОШ ≤ К _ОШД , PS k - VVST is operational and control is transferred to block 16.

If К _ОШ > К _ОШД , PS k - VVST is inoperative and control is transferred to block 6.

In block 6, it is determined that there is a failure of the operating system (OS) of the SS k - VVST. Failure of OS k - VVST should be understood as an event consisting in complete or partial loss of OS performance, termination of the functioning of the system program, which leads to data loss. Also, failures include: freezing - a type of failure, sudden and incorrect termination of the program; failure - improper performance by the system of the provided functions, unexpected system behavior; failures as a result of unauthorized access or system damage by a virus.

Basic concepts of OS failures are described in the books: 1. Stepanov AN. Computer science course for students of information and mathematical specialties. - SPb .: Peter, 2018 .-- 1088 p .: ill., P. 1001-1006; 2. Tonenbaum E., Bose X. Modern operating systems. 4th ed. - SPb .: Peter, 2015. - 1120 p .: ill., Pp. 659-784; 3. Kenya A.M. A practical guide for the system administrator. - SPb .: BHV-Petersburg, 2010 .-- 464 p .: ill., Pp. 117-125.

If in block 6 it is not determined that there is a failure of the OS PS k - VVST, control is transferred to block 12.

If the failure of the OS PS k - VVST is determined, control is transferred to block 7, in which the bootable media is activated using the ASKDP. At the same time, an operable backup OS PS k - VVST is located on the bootable medium.

The basic principles of forming a bootable media are described in the books: 1. Gukin D. Troubleshooting in a PC. - M .: Dialectics, 2005. - 304 p., Pp. 280-284; 2. Zhadaev A.G. How to protect your computer 100%. - SPb .: Peter, 2012 .-- 304 p., P. 164-170; 3. Stakhnov A.A. Linux. - SPb .: BHV-Petersburg, 2002 - 912 p .: ill., Pp. 242-261.

In block 8, the image of the failed OS PS k - VVST is mounted on bootable media. The basic principles of OS image mounting are described in the books: 1. DN Kolisnichenko. From beginner to professional. - 3rd ed., Rev. and add. - SPb .: BHV-Petersburg, 2011 - 565 p .: ill., Pp. 30-32, 615-629; 2. Leontiev V.P. Windows 10 - 3rd updated edition - M .: Publishing house "E", 2017 - 416 p., Pp. 22-28; 3. Komyagin VB Ubuntu Linux 11.04: rus. Version - M .: Publishing house Triumph, 2012 .-- 208 p .: ill., Pp. 199-201.

In block 9, the presence of corrupted data in the image of the failed OS PS k - VVST mounted on bootable media is determined.

Data corruption can be: unauthorized data formatting, accidental deletion of data, damage to sectors containing service information (hard disk service area), damage to sectors with information about the location of files and folders. The reasons and types of data corruption are described in the book by G.E. Senkevich. The art of data recovery. - SPb .: BHV Petersburg, 2011 .-- 304 s: ill., Pp. 87-103.

If the data in the image of the failed OS PS k - VVST is damaged, control is transferred to block 13.

If the data in the image of the failed OS PS k - VVST is not damaged, control is transferred to block 10, in which the backup copy of the OS PS k - VVST located on the bootable media is installed.

In block 11, the presence of a failure is determined when installing a backup OS of the SS k - VVST.

If the backup OS of the SS k - VVST is installed, the remote monitoring of the technical condition of the SS k - VVST is repeated in block 4.

If it is determined in block 11 that the backup OS PS k - BBST is not installed, control is transferred to block 19.

In block 12, a determination is made of the presence of damaged data of the PS k - VVST.

The procedure for determining the presence of damaged data of PS k - VVST is described in the book Tashkov P.A. Recovering data 100%. - SPb .: Peter. 2010 .-- 208 p., Pp. 10-15.

If the data of the PS k - BBST is not damaged, control is transferred to block 19.

If the data of the PS k - BBST is damaged, control is transferred to block 13.

In block 13, the data recovery utility (ATC) is activated and the damaged data of the PS k - VVST is restored.

A utility is understood as an auxiliary computer program as part of general software for performing specialized typical tasks related to the operation of equipment and OS.

Data recovery refers to the procedure for retrieving information (data) from a storage device when it cannot be read in the usual way.

The procedure for activating and using ATC is described in the following books: 1. Gultyaev A.K. Data recovery. - SPb .: Peter, 2005. - 330 s: ill., P. 161-318; 2. Senkevich G.E. The art of data recovery. - SPb .: BHV Petersburg, 2011 .-- 304 p .: ill., P. 134-148; 3. Chichelov A. Utilities. Useful programs. - Aquarium-Print, 2006. - 48 p .; 4. Voroisky FS Informatics. A new systematized explanatory dictionary. - 3rd ed. - M .: FIZMATLIT, 2003 .-- P. 364, 381.601. - 760 p., P. 235.

In block 14, the fact of the presence of the restoration of damaged data of the SS k - VVST using the ATC is determined.

If the damaged data PS k - VVST is not restored, control is transferred to block 19.

If the recovered data is available, control is transferred to block 15 in which the data is backed up from the PS k - VVST in the ASKDP DB.

The procedure for structuring information and the logic of the functioning of the ASKDP DB are described in the monograph by S.V. Mikoni. General diagnostic knowledge base of computing systems. - SPb .: SPIIRAN. 1992.234 s., Pp. 180-186.

Data backup PS k - VVST should be understood as data backup - the process of creating a copy of data on a medium (hard disk, floppy disk, etc.) intended to restore data in its original or new location in case of damage.

Methods for backing up data are described in the following books: 1. Habrekein D., Hayden M. Master your own network technologies, 3rd edition .: Per. from English. - M .: LLC "I.D. Williams ", 2007. - 432 s, pp. 335-339; 2. Gultyaev A.K. Data recovery. - SPb .: Peter, 2005. - 330 p .: ill., P. 182-188; 3. Tormasov A., Tymenkov Yu., Tymenkova D. Modeling the backup operation on the loaded system. -M .: Litres, 2017 .-- 96 p .; 4. Smith R. Network facilities Linux .: Per. from English. - M .: I.D. Williams ", 2003. - 592 p. 342 - 371.

Further, control is transferred to block 4, in which the technical condition of the substation k - VVST is re-monitored.

In block 16, the parameters of updating the MS k -BBST are predicted. Predicting the parameters of updating the PS k - WME is understood to mean the determination of the need to update the PS k - AMCT based on the analysis of data on their past and present state. The implementation of the forecasting process is known from a wide range of literature: 1. Forecasting workbook / I.V. Bestuzhev - Lada. - M .: Mysl, 1982. - 430 p., Pp. 281-293; 2. Technical means of diagnostics: Handbook / V.V. Klyuev, P.P. Parkhomenko, V.E. Abramchuk and others; Under total. Ed. V.V. Klyuev. -M .: Mechanical Engineering, 1989. - 672 p., P. 158-159; 3. Chuev Yu.V., Mikhailov Yu.B. Forecasting in military affairs. M., Voenizdat, 1975.279 p. S 137-271; 4. Leontiev V.P. The newest encyclopedia of the personal computer. -M .: OLMA-PRESS Education, 2004. - 734 p .; 5. Leonov V. PC crash and errors / Vasily Leonov. - 2nd ed. - M .: Eksmo, 2012 .-- 240 p.

In block 17, it is determined the need to update the PS k - IMST. If the update of PS k - BBST is not required, control is transferred to block 20. If the update of PS k - BBST is required, control is transferred to block 18.

In block 18, SS k is updated - VVST. An update of PS k - VVST is understood as a set of new versions of files, fixes and improvements of PS k - VVST. At the same time, the functionality of the SS k - VVST is being finalized and improved, the existing errors in the OS of SS k - VVST are eliminated. Actual update files are formed into update packages in the ASKDP DB, based on the date of their receipt in the ASKDP DB. The update procedure is described in the book: Kenya A.M. A practical guide for the system administrator. - SPb .: BHV-Petersburg, 2010 .-- 464 p .: ill., Pp. 117-125.

In block 19, a set of commands is formed for m - MPO to diagnose and / or restore PS k - VVST.

In block 20, m - MRO from k - VVST, m - MRO from ASKDP and k - MRO from ASKDP are disconnected.

The order of disconnecting, folding and moving k - VVST is described in the book: 1. P.K. Altukhov, I.A. Afonsky et al. Fundamentals of the theory of command and control. / Ed. Altukhova P.K. - Moscow: Military Publishing, 1984 .-- 221 s, p. 19, 146-150. 2. Technical operation of communication facilities. Part I. P.I. Barashkov, A. Ya. Grechkosiy, V.V. Krolevetsky / Ed. AND I. Grechkosia - L .: VAS, 1980 .-- 302 p.

In block 21, the further functioning of the ASKDP and m - LRO is carried out based on the assigned tasks or their curtailment to move to the specified areas.

Thus, the claimed method of substantiating the level of reliability of the SS k - VVST provides an increase in the reliability of monitoring the technical state of k - VVST due to the possibility of remote monitoring and restoration of the technical state of the SS k - VVST ASKDP and predicting the parameters of updating the SS k - VVST.

The assessment of the attainability of the technical result declared in the method was carried out by comparing the reliability of the assessment of the results obtained when simulating the process of functioning of the PS k - VVST for the prototype method and for the proposed method.

From formula 1 (Ventzel E.S, Ovcharov L.A. Probability theory and its engineering applications. - M .: Nauka. Ch.ed.phys. - Mat. Lit. - 1988, 480 p., P. 463 ):

where Ф is the Laplace function;

N is the number of simulated events;

p _osh is the real value of the assessment;

- требуемое значение оценки;

- the required value of the assessment;

ε is the value of the confidence interval.

Let us determine the reliability of the results of modeling the process of functioning of the SS k - IWST, taking

Let's pass from the Laplace function to its argument (Simulation modeling of means and complexes of communication and automation. Ivanov E.V. SPb .: VAS, 1992. - 206 p., P. 14):

This value of the argument of the Laplace function can be represented as follows:

вычислить не удается, можно воспользоваться упрощенной формулой для наихудшего случая

Тогда:If p _osh ;

cannot be calculated, you can use the simplified worst-case formula

Then:

и

, принимая ε=0,05, а N=5 для прототипа (при моделировании процессов: 1) формирования и развертывания АСКДП, развертывания m - МРО, k - ВВСТ и n - точек доступа к ЕСЭ; 2) удаленного подключения m - МРО к k - ВВСТ и m - МРО и k - ВВСТ к АСКДП; 3) формирования набора команд на проведение диагностирования и/или восстановления ПС k - ВВСТ; 4) отключения m - МРО от k - ВВСТ и m - МРО и k - ВВСТ от АСКДП; 5) свертывание для перемещения m - МРО) и N=8 для предлагаемого способа (при моделировании процессов: 1) удаленного контроля технического состояния ПС k - ВВСТ; 2) активации с помощью АСКДП загрузочного носителя с резервной ОС; 3) монтажа образа отказавшей ОС; 4) установки резервной копии ОС ПС k - ВВСТ; 5) прогнозирования параметров обновления ПС k - ВВСТ; 6) активации утилиты восстановления данных; 7) резервирования восстановленных данных ПС k - ВВСТ; 8) обновления ПС k - ВВСТ):We define

and

, taking ε = 0.05, and N = 5 for the prototype (when modeling the processes: 1) the formation and deployment of the ASKDP, the deployment of m - LRO, k - WME and n - access points to the ESE; 2) remote connection of m - MRO to k - VVST and m - MRO and k - VVST to ASKDP; 3) formation of a set of commands for diagnosing and / or restoring PS k - VVST; 4) disconnecting m - MPO from k - VVST and m - MPO and k - VVST from ASKDP; 5) rolling up to move m - MPO) and N = 8 for the proposed method (when modeling the processes: 1) remote monitoring of the technical state of the substation k - VVST; 2) activation of bootable media with a backup OS using ASKDP; 3) mounting the image of the failed OS; 4) installation of a backup copy of OS PS k - VVST; 5) forecasting the parameters of updating the PS k - VMS; 6) activating the data recovery utility; 7) backup of the restored data of the SS k - VVST; 8) updates PS k - VVST):

Evaluation of the effectiveness of the claimed method:

Thus, the effectiveness of the claimed method in comparison with the prototype method is 21.2%.

Thus, a technical problem is solved.

Claims (1)

A method of substantiating the level of reliability of software for weapons, military and special equipment, which consists in the following: form and deploy an automated control, diagnostics and forecasting system, form n - access points to a unified telecommunication network, deploy m - mobile repair units and k - weapons , military and special equipment, remotely connect m - mobile repair units to k - weapons, military and special equipment, remotely connect m - mobile repair units and k - weapons, military and special equipment to an automated control, diagnostics and forecasting system, form a set commands to diagnose and / or restore software k - weapons, military and special equipment, disconnect m - mobile repair units from k - weapons, military and special equipment, disconnect m - mobile repair units and k - weapons, military and special equipment from the automated control system i, diagnostics and forecasting, carry out the further functioning of the automated control, diagnostics and forecasting system and m - mobile repair units or roll up m - mobile repair units to move to specified areas, characterized in that: they carry out remote control of the technical state of software k - weapons , military and special equipment, while retrieving the registration files for software k - weapons, military and special equipment, determine the presence of the extracted software registration files for k - weapons, military and special equipment, send registration files for software k - weapons, military and special technicians in the database of the automated control, diagnostics and forecasting system, assess the reliability of software k - weapons, military and special equipment, determine the type of technical state of software k - weapons, military and special equipment, activator comfort bootable media from the backup operating system, mount the image of the failed operating system of software k - weapons, military and special equipment, install a backup copy of the operating system of software k - weapons, military and special equipment, activate the data recovery utility, backup the restored software data means k - weapons, military and special equipment, predict the parameters of updating software k - weapons, military and special equipment, update software k - weapons, military and special equipment.

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