RU2665231C1 - Method and system for forming variants of strategy for long-term planning of activities on providing required status of complex organizational and technical system - Google Patents

Abstract

FIELD: data processing.SUBSTANCE: invention relates to the field of automated systems for program-targeted planning and management of complex organizational and technical systems. System for forming the variants of the strategy for long-term planning of measures includes a block of data on the monitored object, a correction block for the purpose of the forecast and the objectives of the feedback, block of formation of the properties of the monitored object on the basis of new characteristics, a block for assessing the development of the properties of objects, a block simulating the environment affecting the controlled facility, a block model for updating the properties of the monitored object. Structure of the system additionally includes block-models of actualization of the properties of the environment affecting the controlled object, a block of data on the environment influencing the controlled object, intended for the collection and storage of quantitative characteristics characterizing the properties of the environment affecting the controlled object, block for the formation of scenarios for the development of the parameters of the change affecting the controlled environment.EFFECT: technical result consists in expanding the arsenal of means for the same purpose.1 cl, 1 dwg

Description

The invention relates to the field of automated systems for program-targeted planning and development management of complex organizational and technical systems and can be used in the process of substantiating the optimal strategy for long-term planning of activities to ensure the required state of a complex organizational and technical system

The technical result of the invention is the implementation of automated formation of long-term planning strategy options for ensuring the required state of a complex organizational and technical system, which allows to reduce the uncertainty and dynamism of the source data, and accordingly, to increase the accuracy and efficiency of program-targeted planning and development management of a complex organizational and technical system generally.

A known method of forming the recommended routes of movement of vehicles (options) [1]. The method uses a central station (CA), equipped with radio communications, telecommunications and computer, form a model digital map and transmit it to the computers of the head vehicles of the CTS, equipped with radio communications and navigation. Based on the received data on the characteristics, location and required destination, the CA computer forms the recommended driving routes and transfers them to the head vehicles of the corresponding CCC. Additionally, compulsory regulation of the movement of other vehicles moving outside the CTS is organized. In the first variant of the method, it is possible to sequentially form the recommended routes for vehicle traffic as part of the CTS, ensuring the passage of the CTS without mutual interference and taking into account both the rank of their priority and the ability to form recommended routes in compliance with the required arrival time at each destination

The disadvantage of this method is that it cannot be applied to automatically generate options for a strategy for long-term planning of measures to ensure the required state of a complex organizational and technical system.

A computer-based strategic forecasting system for changing the characteristics of technical systems using preliminary mathematical models is disclosed in WO 2005109253 A1, published November 17, 2005, IPC (as amended by IPC1-7) G06F 17/50. It includes a control and control unit, as well as a number of input / output devices connected to it, such as a monitor, printer, mouse, keyboard, etc. The control unit includes a central processor, a memory chip - a data block for the object being monitored and an interface circuit that combines the aforementioned I / O with the central process.

The disadvantage of the above-described computer system for predicting changes in the characteristics of technical systems is the need to attract a qualified operator who can programmatically formalize the complex relationships between the dynamics of changes in the set of properties of components of a controlled technical system and the currently measured parameters of this technical system. In this regard, the process of forming options for a strategy for long-term planning of activities to ensure the required state of a complex organizational and technical system using this system requires significant labor and time costs.

A device for determining the parameters of the strategy of maintenance of the system [2]. This technical solution relates to control devices in which it is required to determine a maintenance strategy for the system’s facilities, ensuring their required readiness for intended use. The device contains: a first memory block 1, which receives input data from 1-7 inputs of the device, a second memory block 27, where the optimal value of the maintenance period of the most complex system means is stored, shift register 2, delay elements 3, 17, 18, 25 , 35, valves 4, 6, 19, waiting multivibrator 7, OR circuits 8, 12, accumulating adders 9, 11, non-linearity blocks 10, 14, 20, 22, trigger 13, multiplication blocks 15, 16, 24, 28, 37 , division blocks 34, 36, integrators 9, 11, subtractors 21, 23, comparator 26, integrators 30, 32, adders 5, 31, 33 and counter 29.

The disadvantage of this device is that it cannot be used to automatically generate options for a strategy for long-term planning of activities to ensure the required state of a complex organizational and technical system.

There is a method and device for choosing a rational strategy in the fighting of groupings of parties with uniform military means (BSR) [3]. In the method, they commute information about the data of their BSR and the means of each enemy grouping, write it to memory blocks, determine the uniformity of the BSR groups, fix the levels of incomplete information about the coordinates of the BSR groups, form recommendations for choosing PC depending on the initial data, call information from the source blocks memory to find the remnants of their BSR and the enemy, which is recorded in the fourth memory block, through a command from the control unit in the visualization unit displays information on rationally th strategy of the winner in the fighting, and the remains of its BSR and the enemy. A device that implements the method includes a switch, four memory blocks, a control unit, a unit for determining the uniformity of the BSr, a logic unit, a unit for determining the residuals of the BSr, and a visualization unit.

The disadvantage of this method is that it cannot be applied to automatically generate options for a strategy for long-term planning of measures to ensure the required state of a complex organizational and technical system.

A known method and device for selecting a target distribution strategy for group objects [4], which contains a switch and four memory blocks, a control unit, two comparison blocks, three arithmetic blocks, a visualization block, a multiplication block and a logic block, a visualization block, the outputs of the control block are connected to control inputs of all blocks.

The disadvantage of this method is that it cannot be applied to automatically generate options for a strategy for long-term planning of measures to ensure the required state of a complex organizational and technical system.

A known system for assessing the focus of the process of forming an organization’s action strategy [5], designed to process data for special applications and which is used to model and create organizational systems, in particular, systems for evaluating the focus of the process of forming an organization’s action strategy (group, team)

The required technical result is achieved by the fact that, in the device containing the first and second data processing units, a data memory block about the initial focus of the participants, (n-2) data processing units is introduced, where n is the number of participants connected in series to the superposition unit providing a weighted summation of the input signals and the inputs of which are connected to the outputs.

The disadvantage of the device is the relatively narrow functionality, due to the fact that it allows you to process information and simulate meetings with people with different individual interests and potentialities, to purposefully achieve some main strategic goal, but it does not allow using it for automatic formation strategy options for long-term planning of activities to ensure the required state of complex organizational -technical system.

Closest to the proposed invention is a system for strategic forecasting of the technical condition of objects of predominantly computer-computing systems [6], which contains a data block for a controlled object, a correction system for a forecast target and a feedback target, a system for generating properties of a controlled object based on new features, a block assessment of the development of properties of objects, consisting of a system for assessing the development of the properties of a controlled object and a development assessment system integrated into one electronic unit ment properties of a set of objects, similar to the controlled object block, which simulates the environment acting on the controlled object model and the block updating properties of the controlled object. These blocks are combined into a single electronic circuit.

The disadvantage of the above-described strategic forecast of the technical state of objects is that it allows predicting the state of only predominantly computer-computing systems, while this system does not take into account the large amount of uncertainty and dynamism of the initial data characterizing the environment affecting the controlled object, which significantly reduces the accuracy and the effectiveness of target-oriented planning and management of the development of complex organizational and technical systems.

Thus, the disadvantage of these known systems is the impossibility of their use for the automated formation of variants of a strategy for long-term planning of measures to ensure the required state of a complex organizational and technical system. The above patents provide a solution to various problems, but do not eliminate the identified shortcomings and do not solve the problem of reducing the uncertainty and dynamism of the source data, the presence of which significantly reduces the accuracy and efficiency of program-target planning and development management of a complex organizational and technical system as a whole. Given these and other problems, there is a need to develop a way to formulate options for a strategy for long-term planning of activities to ensure the required state of a complex organizational and technical system and device for its implementation, which would eliminate the noted drawbacks.

Thus, the proposed invention is aimed at solving such a problem as the ability to reduce the uncertainty and dynamism of the source data, and accordingly, to increase the accuracy and efficiency of program-targeted planning and management of the development of a complex organizational and technical system as a whole, through the use of decomposition (i.e. . simplification) the task of predicting the parameters of restrictions on the control action on a complex organizational and technical system during the planning period, which provides it is the selection of a set of individual scenarios of events (scenarios) that together cover all the possible scenarios for the development of the parameters of the change affecting the controlled environment.

The analysis of the prior art allowed us to establish that analogues, characterized by a combination of features that are identical to all the features of the proposed technical solution, are absent. None of the closest analogues and prototypes provides the implementation of the automated formation of options for a long-term planning strategy for activities to ensure the required state of a complex organizational and technical system, which meets the criteria of “novelty and usefulness”.

Search results for known technical solutions in this and related fields of technology have shown that the distinguishing features of the claimed method and its implementation do not follow explicitly from the prior art of the presented analogues and prototypes. The prior art also did not reveal the popularity of the essential features provided for in the claimed invention, and the achievement of the specified technical result. Therefore, the claimed invention meets the condition of patentability "inventive step".

The aim of the invention is the automation of the formation of options for strategies for long-term planning of measures to ensure the required state of a complex organizational and technical system, as well as reducing the uncertainty and dynamism of the source data, which, accordingly, should increase the accuracy and efficiency of program-targeted planning and development management of complex organizational and technical system as a whole.

The specified technical result is achieved due to the fact that in the system of forming variants of the strategy for long-term planning of measures to ensure the required state of a complex organizational and technical system, which contains a data block for the controlled object, a correction block for the forecast target and feedback target, a block for generating the properties of the controlled object on based on new features, a unit for assessing the development of properties of objects, which consists of combined blocks for assessing the development of properties of a controlled object and assessing the development of properties of a set of objects similar to a controlled object, a block simulating the medium acting on the controlled object, a block model of updating the properties of the controlled object, while the input for receiving extrapolated data of the data block for the controlled object is connected to the first output of the model block actualization of properties about the controlled object, and its output - with the first input, intended to obtain the parameters of the controlled object, block for the formation of control properties object on the basis of new features, the input intended for receiving a correction signal, and the output intended for issuing a signal for setting the data accumulation interval and extrapolating it, the correction unit for the forecast target and the feedback target are connected respectively to the second output and the first input of the model block actualization of properties about the controlled object, the second input and the first output of the block for forming the properties of the controlled object based on new features are connected respectively to the first output intended for I output a signal corresponding to the updated information about the current state of the controlled object, and the first input intended to receive the signal, based on which the probability characteristics of external factors are generated, a block simulating the medium acting on the controlled object, and the second output of the block for generating properties of the controlled object based on new features connected to the first input, designed to receive information about the current state of the controlled object, the unit for assessing the properties of development objects, the second input and output of the unit for assessing the development of properties of objects are connected respectively with the second output, intended for the output of the correction signal, and the second input, designed to receive a control signal, a block simulating the medium acting on the controlled object, the third output of which is connected to the second input, designed to receive the generated information, a block model of updating properties about a controlled object, the system also includes block models of updating properties acting on a controlled object of the environment, designed to predict the technical characteristics of the medium acting on the controlled object, a data block on the medium acting on the controlled object, designed to collect and store quantitative characteristics characterizing the properties of the medium acting on the controlled object, the block for generating scenarios for the development of change parameters affecting controlled environmental object designed to determine the parameters characterizing the upper and lower faces changes in the most likely quantitative characteristics of external factors that will affect the controlled object, while the input for receiving extrapolated data of the data block acting on the controlled object is connected to the first output of the model block for updating the properties of the medium acting on the controlled object, and its output - with the first input, intended to obtain the parameters of the environment acting on the controlled object, block of the formation of development scenarios changing parameters affecting the monitored object medium, whose output is connected to a third input of the modeling environment acting on the controlled object, a fourth output is connected to a first input of model updating properties acting on the controlled object medium.

The invention is illustrated in Fig. 1, which shows a structural diagram of a system for generating variants of a strategy for long-term planning of measures to ensure the required state of a complex organizational and technical system.

The composition of the specified system for the formation of options for a long-term planning strategy includes: a data block for the controlled object 1, designed to collect and store quantitative characteristics characterizing the properties of the object of analysis; a correction block for the forecast goal and feedback goal 2, designed to form a set of private performance indicators and build a target function that determines the depth of the forecast and the goal of feedback; a unit for generating properties of the controlled object based on new features 3, intended to formalize the current state of the controlled object based on the data received in it; a unit for assessing the development of properties of objects 4, which, in particular, may consist of combined units for evaluating the development of properties of a controlled object 5 and evaluating the development of properties of a set of objects similar to a controlled object 6, designed respectively to analyze changes in the characteristics of a controlled object and objects similar to a controlled object; a block simulating the medium 7 acting on the controlled object, designed to generate the most probable quantitative characteristics of external factors that will affect the controlled object; a block model for updating properties about a controlled object 8, designed to predict the technical characteristics of a controlled object with correction for the purpose of feedback; a block model for updating the properties of the medium acting on the controlled object 9, designed to predict the technical characteristics of the medium acting on the controlled object; a data block on the medium acting on the controlled object, designed to collect and store quantitative features 10 characterizing the properties of the medium acting on the controlled object; a block for generating scenarios for the development of parameters of changes in the medium 11 affecting the controlled object, designed to determine the parameters characterizing the upper and lower bounds for the changes in the most probable quantitative characteristics of external factors that will affect the controlled object.

The input of the data block for the monitored object 1 is connected to the first output of the block of the model for updating the properties of the monitored object 8, and its output is connected to the first input of the block for generating the properties of the monitored object based on new features 3. The input and output of the correction block for the forecast target and reverse target communications 2 are connected respectively with the second output and the first input of the block of the model of updating the properties of the controlled object 8. The second input and the first output of the block of forming the properties of the controlled object based on new features 3 soy respectively, with the first output and the first input of the block simulating the medium 7 affecting the controlled object, and the second output of the block of forming the properties of the controlled object based on new features 3 is connected to the first input of the block for assessing the development of properties of objects 4. The second input and output of the block for assessing the development of properties objects 4 are connected respectively to the second output and second input of the block simulating the medium 7 acting on the controlled object, the third output of which is connected to the second input of the act model block lizization of properties about the controlled object 8. The input intended for receiving extrapolated data of the data block on the medium acting on the controlled object 10 is connected to the first output of the model update block of the properties acting on the controlled object medium 9, and its output - on the first input intended for obtaining parameters of the medium acting on the controlled object, the scenario formation block for the development of parameters for changing the medium 11 acting on the controlled object, the output of which is connected to the third the course of the block simulating the medium acting on the controlled object, the fourth output of which is connected to the first input of the model block of updating the properties of the medium acting on the controlled object.

The claimed object is not a distributed system. As a data block for the controlled object 1 and a data block for the medium acting on the controlled object 10, a random-access memory (RAM), for example, based on a microcircuit - TVS6408 V4E-6, can be used as a correction block for the forecast target and the return target communication 2, the block for the formation of properties of the controlled object based on new features 3, the block for assessing the development of properties of objects 4 block modeling the environment affecting the controlled object 7 and the block for generating scenarios for the development of parameters of change Ia acting on the controlled object environment 11 known microprocessor devices may be used, which can be programmed to implement a specific set of functions in accordance with a predetermined algorithm. For example, these units can be implemented based on the AMD Geode GX466 / 333 MHz microprocessor module. Any IBM-compatible computer can be used as a block model for updating properties of a controlled object 8 and a block model for updating properties of a medium 9 affecting a controlled object. Moreover, the above blocks 2-7, 10-11 can be implemented, for example, using the algorithm described in the book B.V. Batalova, Yu.B. Egorova and S.G. Rusakova "Fundamentals of the mathematical modeling of large integrated circuits on computers", Moscow: Radio and communications, 1982, pp. 94-132 (chap. 4. "Application of the principles of macromodeling for the analysis of complex electronic circuits").

The essence of the proposed method for the formation of options for a long-term planning strategy for ensuring the required state of a complex organizational and technical system is as follows: data are introduced that characterize the parameters of the medium acting on the controlled object, scenarios of development of the parameters of the change of the medium acting on the controlled object are formed, data characterizing other parameters of the controlled object, information is generated about the current status of the control of the controlled object in the form of a function that varies over time, the most probable quantitative characteristics of external factors are generated that will affect the controlled object, the environment acting on the controlled object is simulated until the corresponding control signal arrives, information about the current state of the controlled object and objects is compared, similar to the controlled object, information is recorded about the change in the state of the object, based on which the data array is formed and extrapolation is carried out for a given time interval, which is set in advance, if necessary, extrapolated data can be the basis of a new act of the process of forecasting the technical condition of the controlled object.

The proposed device that implements the above method of forming options for a strategy for long-term planning of activities to ensure the required state of a complex organizational and technical system works as follows. In the data block for the monitored object 1, data are measured, measured using an appropriate measuring tool, characterizing certain parameters of the monitored object, for example, signal levels at given points. These data are fed to the first input of the block for generating properties of the controlled object based on new features 3, where, in accordance with the algorithm laid down in it, information about the current state of the controlled object is generated in the form of a function that varies over time.

In the data block on the medium acting on the controlled object 10, the data measured by means of appropriate measuring instruments characterizing certain parameters of the medium acting on the controlled object is laid down, for example, the magnitude of the control effect at the current time. These data are fed to the first input of the scenario formation block for the development of parameters of changes in the environment 11 affecting the controlled object, in which decomposition (i.e. simplification) of the task of forecasting the constraint parameters for the control effect on the complex organizational and technical system is performed during the planning period, which provides the selection of a set of individual options for the development of events (scenarios), together covering all possible options for the development of parameters for changing the impact Leica Geosystems on the test object environment. The obtained parameters characterizing the upper and lower boundaries of the change in the most probable quantitative characteristics of external factors that will affect the controlled object are sent to the third input of the block simulating the medium 7 acting on the controlled object.

In turn, from the first output of the unit for forming the properties of the controlled object based on new features 3, in accordance with the specified information, a signal is sent to the first input of the block simulating the medium affecting the controlled object 7. In the indicated block, based on the signal from the block for generating the properties of the controlled object new signs 3 and a block for the formation of scenarios for the development of parameters of changes in the medium acting on the controlled object 11, the most probable quantitative characteristics are generated and external factors that will influence the controlled object, such as resource potential of industrial enterprises, cost parameters manipulated events, etc.

Under these influences, the state of the object will change, respectively, the block simulating the medium 7 affecting the controlled object, from its first output through the feedback circuit transmits a signal corresponding to the updated information about the current state of the controlled object to the second input of the block for generating the properties of the controlled object based on new features 3. The process of transmitting information from the block forming properties of the controlled object based on new features 3 to the block simulating the effect on the contact oliruemy object medium 7 in the opposite direction, takes place as long as the second input unit, acting on the modeling environment controlled object 7, not received an appropriate control signal from the output of the evaluation unit 4 objects properties.

The unit for assessing the development of properties of objects 4, which, as a rule, includes a unit for assessing the development of properties of a controlled object 5 and a unit for assessing the development of properties of a set of objects similar to a controlled object 6, continuously compares the data obtained from the second output of the block for generating properties of a controlled object based on new features 3 information on the current state of the controlled object and objects similar to the controlled object with 4 reference homogeneous in the unit for assessing the development of properties of objects characteristics for such serviceable and failing for various reasons objects (for each group of faulty objects, certain parameters go beyond the tolerance). As soon as any parameter of the controlled object in the process of influencing the environment simulated from block 7 moves from one category of the health characteristic of the controlled object to another (i.e., at first the parameter was inherent in one group of objects, for example, serviceable objects, and then a similar parameter became inherent in faulty objects that have failed, for example, due to overheating of the object), an output signal will be generated at the output of the block for assessing the development of properties of objects 4, which will give a command to the block simulating the acting on the controlled object environment 7, stop the exchange of information from the block forming properties of the controlled object based on new features 3 and transfer the information contained in it at that time from its third output to the block model for updating properties about the controlled object 8 and from its fourth output in the block model of updating the properties of the medium acting on the controlled object 9.

Since, over time, under continuous exposure to the external environment, the reference parameters embedded in the unit for assessing the development of properties of objects 4 must also undergo some changes (with the age of the object under certain conditions, the tolerance field of its main parameters is adjusted), their corresponding adjustment is carried out by the corresponding signal transmitted from the second output of the block simulating the medium 7 acting on the controlled object, to the second input of the development assessment block I have object properties 4.

The information received during the specified time interval for the second input of the property updating model block about the controlled object 8 and the first input of the property updating model block for the medium affecting the controlled object 9, information is accumulated in it, a data array is formed, and a predetermined time interval is extrapolated to the front. The corresponding extrapolation program, for example, can be implemented on the basis of the Mathcad 15.0 RTS program. The specified information can be displayed either on the monitor built into blocks 8 and 9, or on a printer, or on some other means of information output.

The above intervals of data accumulation and extrapolation in the model block for updating the properties of the controlled object 8 are set using the correction block for the forecast target and feedback target 2. The corresponding signal is sent from its output to the first input of the block for the model of updating the properties of the controlled object 8 To do this, in the correction block for the forecast goal and the feedback goal 2, the operator previously laid down weight coefficients that reflect the distribution of priorities for the main particular indicators effectively the object’s base, on the basis of which the objective function is constructed, which determines the depth of the forecast of one or another parameter. In this case, depending on the obtained extrapolation results, the specified objective function can be continuously adjusted in real time by means of a feedback system, realized due to the fact that the second output of the block for updating the properties of the controlled object 8 is connected to the input of the correction block for the forecast and target feedback 2.

If necessary, the data extrapolated in the model block for updating the properties of the controlled object 8 can be used as the basis for a new act in the process of forecasting the technical state of the controlled object. To do this, the specified data can be transferred from the first output of block 8 to the input of the data block for the controlled object 1. In this case, the whole process of forecasting the technical state of the controlled object will begin again.

The proposed system provides automation of the formation of options for a long-term planning strategy of measures to ensure the required state of a complex organizational and technical system, as well as reducing the uncertainty and dynamism of the source data, which, accordingly, increases the accuracy and efficiency of program-targeted planning and development management of a complex organizational and technical system generally.

The proposed technical solution is industrially applicable, as it is based on operations that are widely used in automated computing and control systems, and can be implemented either as a device with specialized units, or on the basis of a personal computer with appropriate software for performing the functions provided.

Information sources

1. Patent RU 2459259 C1, IPC G06Q 50/30 (2012.01), G08G 1/0969 (2006.01), 2012.

2. Patent RU 2265890 C1, IPC G07C 3/00 (2006.01), 2015.

3. Patent RU 2571613 C2, IPC G06F 17/10 (2006.01), G06F 17/13 (2006.01), 2015.

4. Patent RU 2469386 C2, IPC G06F 17/00 (2006.01), 2012.

5. Patent RU 78969 U2, IPC G06F 19/00 (2006.01), 2008.

6. Patent RU 2326431 C2, IPC G06F 17/00 (2006.01), G06F 11/30 (2006.01), 2008.

Claims (1)

The system for the formation of options for a long-term planning strategy for ensuring the required state of a complex organizational and technical system contains a data block for a controlled object, a correction block for a forecast goal and a feedback goal, a block for generating properties of a controlled object based on new features, a block for assessing the development of properties of objects, which consists of combined units for assessing the development of properties of a controlled object and assessing the development of properties of a set of objects similar to control To the object being monitored, a block simulating the medium acting on the controlled object, a block model for updating the properties of the controlled object, while the input for receiving extrapolated data from the data block for the controlled object is connected to the first output of the block for updating the properties of the controlled object, and its output is with the first input, intended to obtain the parameters of the controlled object, the block of formation of the properties of the controlled object based on new features, the input, intended for I receive the correction signal, and the output intended for issuing the signal for setting the interval of data accumulation and extrapolation, the correction block for the forecast target and the feedback target are connected respectively to the second output and the first input of the property updating model block about the controlled object, the second input and the first the output of the unit for forming the properties of the controlled object based on new features is connected, respectively, with the first output, designed to issue a signal corresponding to the updated information about the current m state of the controlled object, and the first input intended for receiving a signal, on the basis of which the probability characteristics of external factors are generated, a block simulating the medium acting on the controlled object, and the second output of the block for forming the properties of the controlled object based on new features is connected to the first input for receiving information about the current state of the controlled object, the unit for assessing the properties of the development of objects, the second input and output of the unit for assessing the development of the properties of the objects The s are connected respectively with the second output, intended for the output of the correction signal, and the second input, intended for receiving the control signal, the block simulating the medium acting on the controlled object, the third output of which is connected with the second input, intended for receiving the generated information, the update model block properties about the controlled object, the system also includes block models for updating the properties of the medium acting on the controlled object, designed to prediction of the technical characteristics of the medium acting on the controlled object, the data block on the medium acting on the controlled object, intended for collecting and storing quantitative characteristics characterizing the properties of the medium acting on the controlled object, the block for generating scenarios for the development of change parameters of the medium affecting the controlled object, designed to determine the parameters characterizing the upper and lower boundaries of the change in the most probable quantitative characteristics of ext of the other factors that will affect the controlled object, while the input intended for receiving extrapolated data of the data block acting on the controlled object is connected to the first output of the model block for updating the properties of the medium acting on the controlled object, and its output - to the first with an input intended for obtaining parameters of the medium acting on the controlled object, a block for generating scenarios for the development of change parameters affecting the controlled object rows, the output of which is connected to a third input of the modeling environment acting on the controlled object, a fourth output is connected to a first input of model updating properties acting on the controlled object medium.

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