RU2748458C1 - Management subsystem of organizational and technical system - Google Patents

Abstract

FIELD: organizational and technical systems.

SUBSTANCE: invention relates to the management of the activities of organizational and technical systems (OTS) based on the results of monitoring the state of the moving and stationary multiparameter objects (MPO) included in these systems, located in the global territories of the Earth's surface. The essence of the proposed solution lies in the fact that the system of global monitoring in real time of the state parameters of the MPO at each of its points of receiving, processing information and control is additionally provided by a unit for predicting the state of structural subsystems of the organizational and technical system (OTS SSs). Its input is connected to the output of the target information receiver. The first output of this unit is connected to the input of the unit for the formation of control decisions for territorial complexes of means of influence, which is additionally introduced to the point of receiving, processing information and control, the second output is connected to the input of the unit for predicting anomalous values of the state parameters of the MPO, and the third output is additionally connected to the input of the unit for generating control decisions for object complexes of means of influence which is added to the point of receiving, processing information and control, while the output of the unit for forming control decisions for territorial complexes of means of influence is connected to the first input of the transmitter of "packets" of information, and the output of the unit of forming control decisions for object complexes of means of influence is connected with the third input of the unit of transmission of "packets" of information.

EFFECT: invention is aimed at expanding the functionality for the rapid prevention of threats of critical situations in the activities of the OTS based on the use of monitoring data of the state of the multi-parameter objects included in them.

1 cl, 1 dwg, 6 tbl

Description

The invention relates to the field of managing the activities of organizational and technical systems (OTS) located in the global territories of the Earth's surface. The proposed technical solution can be used in control systems operating in technical, economic, social, environmental and other areas of activity.

To date, a number of technical solutions have been proposed to ensure the management of the OTS activities.

Known complex of automation equipment (KSA) to control the grouping of troops (forces) [1. Patent RU 2449367, C1, IPC G06Q 10/00, published 04/27/2012, Bul. No. 12]. This KSA contains: a modeling planning system; management server; database; automated workstations; a modeling monitoring system; block of information and calculation tasks of combat control; block of information and computational planning tasks; block of regulated and formalized data exchange. The complex provides the formation in the automatic mode of parameters characterizing the degree of mismatch between the actual situation and the predicted one, and also generates recommendations for compensating the existing mismatch.

As the features of the considered analogue, it should be noted that it is necessary to transfer significant volumes of primary information about the combat situation and the impossibility of fully implementing operations for monitoring the state of military objects included in the grouping of troops (forces) over a significant number of physical fields, which in turn reduces the effectiveness of controlling the activities of the group (forces).

In addition, the analogue under consideration does not implement the functions of predicting changes in the indicators of the state of the objects of observation and, as a result, has low (at least 2 ... 3 hours) characteristics of the operational management of the GPV activity under the conditions of man-made, natural and deliberate influences.

Known management system for the activities of organizational systems [2. Patent RU 2595335, C1, IPC G05B 19/00, published on August 27, 2016, Bul. No. 24] containing an analytical center; center of objective control; information network; data converter; means of control in the objects of observation in the controlled space and / or outside the objects of observation, with the possibility of observing them; means of two-way wired and / or wireless communication. This analogue is made with the ability, on the basis of data on the objects of observation, analysis of the effectiveness of the organizational system and the generation of data on scenarios for managing the prevention of threats, the elimination of realized threats and the conduct of planned work, to manage the objects of observation that affect the activities of the organizational system and its subdivisions. Operations for choosing a control scenario and transmitting data about the selected scenario for managing objects of observation are carried out on the basis of predetermined constant priorities - predicted preference probabilities.

At the same time, the analogue described above does not provide the possibility of predicting changes in the indicators of the state of the objects of observation, which in turn determines the low characteristics of the operational management of the GPV activity under the conditions of man-made, natural and deliberate influences.

The closest analogue - a prototype of the proposed technical solution is a system of global monitoring in real time of the parameters of the state of multi-parameter objects [3. Patent RU 2568291, C2, IPC G08B 25/14, published on November 20, 2015 byull. No. 32), containing a complex of ground points for receiving and processing information (PPOI) with a block for predicting and responding to changes in anomalous values of the state parameters of the MPO each; a complex of terrestrial subscriber terminals (AT) with a unit for assessing the conformity of the actual values of the state parameters monitored by the MPO, each and a complex of territorial radio stations for receiving and transmitting information.

At the same time, the selected prototype solves the problem of forming timely and effective management decisions to prevent threats of critical situations in activities with significant time expenditures, which significantly limits the functionality of the prototype for operational management of GPV activities in the face of an ever-increasing number of natural and man-made disasters, as well as deliberate impacts on the state of MPS included in these systems.

The technical result of the present invention is to expand the functionality of the prototype for the rapid prevention of threats of critical situations in the activities of the OTS based on the use of monitoring data of the state of the MPS included in them.

The technical result is achieved due to the fact that the claimed subsystem for managing the OTS activity contains a complex of ground subscriber terminals (AT) as part of a series-connected receiving antenna, a GLONASS / GPS signal receiver and tasks for monitoring the parameters of the MPO, a set of sensors, a block for forming the state matrices of the MPO, a target information transmitter and a transmitting antenna, a complex of territorial radio stations for receiving and transmitting information, a complex of ground information processing and control (TPOIU) as part of a serially connected receiving antenna of target information, a target information receiver, a block for predicting anomalous values of the state parameters of the MPO, a block for forming "packets" information, a transmitter of information "packets" and a transmitting antenna, as well as a block for predicting the state of structural subsystems of the OTS (SP OTS), additionally included in each PPOIU, the input of which is connected to the output of the receiver of the target information, the first output of this block ka is connected to the input of the block for the formation of control decisions for territorial complexes of means of influence (TCSV), which is additionally introduced into the PPOIU, the second output is connected to the input of the unit for predicting anomalous values of the state parameters of the MPO, and the third output is connected to the input of the block for the formation of control decisions for object complexes of means of influence (OCSV), while the output of the block for generating control decisions for TCSV is connected to the first input of the transmitter of "packets" of information, while the output of the unit for forming control decisions for OCSV is connected to the third input of the transmitter of "packets" of information.

признаков несоответствия параметров состояния деятельности ОТС допустимым, представляющих собой частное от деления предельного, ЗВН - значения на верхнее допустимое значение или частное от деления допустимого нижнего значения на предельное, ЗНН - значение; критические значения

признаков используются в качестве исходных данных для определения функциональных зависимостей состояния деятельности ОТС от времени, использование которых в свою очередь обеспечивает получение прогнозных оценок

моментов достижения параметрами состояния деятельности ОТС критических значений, совместное использование найденных значений

и предварительно найденных функциональных зависимостей состояний m-го структурных подразделений ОТС (СП ОТС) от времени для получения прогнозных оценок фактических значений

состояния m-го СП ОТС и одновременного выявления фактов наличия критических значений

состояний

m-го СП ОТС, представляющих собой частное от деления предельного, ЗВН - значения состояния m-го СП ОТС на верхнее допустимое значение или частное от деления допустимого нижнего значения на предельное, ЗНН - значение m-го СП ОТС; совместное использование найденных критических значений

и заданных матриц оперативности коррекции критических значений состояний

m-го СП ОТС для определения допустимых временных интервалов

их (критических значений) коррекции, представляющих собой разность от вычитания из вычисленных значений моментов времени достижения критических значений признаков несоответствия известных значений моментов времени окончания формирования матриц состояния

m-го СП ОТС; совместное использование допустимых временных интервалов

и известных функциональных зависимостей параметров состояния k-го МПО от времени для нахождения прогнозных оценок фактических значений параметров состояния МПО и одновременного выделения аномальных состояний k-го МПО, применительно к каждому из которых с использованием заданных матриц оперативности коррекции аномальных значений параметров состояния k-го МПО осуществляется оперативная, в масштабе времени, близком к реальному, коррекция выделенных аномальных параметров.The essence of the invention lies in the fact that in the well-known system of global monitoring in real time of the state parameters of multi-parameter objects, which provides measurement of the state parameters of multi-parameter objects at specified time intervals, the formation of MPO state matrices and prompt response to abnormal parameters of the MPO state according to the invention, it is possible to obtain quantitative critical value assessments

signs of inconsistency of the parameters of the state of the OTS activity with the permissible ones, which are the quotient from dividing the limit, ZVN - the value by the upper permissible value or the quotient from dividing the permissible lower value by the limit, ZNN - value; critical values

features are used as initial data to determine the functional dependences of the state of the OTS activity on time, the use of which, in turn, provides forecast estimates

moments when the parameters of the state of the OTS activity reach critical values, joint use of the found values

and previously found functional dependencies of the states of the m-th structural subdivisions of the OTS (SP OTS) on time to obtain predictive estimates of the actual values

the state of the m-th SP OTS and the simultaneous detection of the facts of the presence of critical values

states

of the m-th CP OTS, which are the quotient of dividing the limiting one, ZVN is the value of the state of the m-th CP OTS by the upper permissible value or the quotient from dividing the permissible lower value by the limit, ZNN is the value of the m-th CP OTS; sharing found critical values

and given matrices of efficiency of correction of critical values of states

m-th SP OTS to determine the permissible time intervals

their (critical values) correction, which is the difference from subtracting from the calculated values of the times of reaching the critical values of the signs of discrepancy of the known values of the times of the end of the formation of state matrices

m-th JV OTS; sharing valid time slots

and the known functional dependencies of the state parameters of the k-th MPO on time to find predictive estimates of the actual values of the state parameters of the MPO and the simultaneous allocation of anomalous states of the k-th MPO, for each of which using the specified matrices of the promptness of the correction of anomalous values of the state parameters of the k-th MPO the operational, in a time scale close to real, correction of the selected anomalous parameters is carried out.

The drawing shows a block diagram of the subsystem for managing the activities of organizational and technical systems.

Tables 1 ... 3 show the forms of the state matrices of the structural units of the OTS.

Table 4 shows the form of the matrix of the state of the JTS activity.

Table 5 shows the form of the matrix of the promptness of the correction of the state of the m-th structural unit of the OTS.

The drawing indicates: 1 - a complex of ground subscriber terminals (AT), each of which includes 1.1 - a receiver of GLONASS / GPS signals and tasks for monitoring the parameters of the MPO, 1.2 - a transmitter of target information, 1.3 - a set of sensors for measuring the actual values of parameters states of monitored MPOs, 1.4 - block of formation of MPO state matrices, 1.5 - receiving antenna; 1.6 - transmitting antenna; 2 - a complex of ground-based, ground-based receiving, information processing and control points (PPOIU) coupled with repeaters, each of which includes 2.1 - a receiver of target information, 2.2 - a block for predicting the values of the state parameters of the MPO, 2.3 - a block for forming "packets" of information; 2.4 - transmitter of information "packets", 2.5 - receiving antenna, 2.6 - transmitting antenna, 2.7 - block for predicting the state of the OTS SP, 2.8 - block for forming control decisions for TCSV, 2.9 - block for forming control decisions for OCSV; 3 - a complex of territorial radio stations for receiving and transmitting information; 4 territorial complexes of means of influence (TCSV); 5 - object complexes of means of influence (OKSV).

The block for predicting the state of the SP UTS 2.7 can be made in the form of serially connected computers 2.7.1 and 2.7.2 with a database 2.7.3 connected to them, while the input of block 2.7 is connected to the output of the target information receiver 2.1, the first output of block 2.7 is connected to the input of the block for the formation of control decisions for TCSV 2.8, additionally introduced into the PPOIU, the second output is with the input of the block for predicting anomalous values of the state parameters of the MPO 2.2, and the third output is with the input of the block for the formation of control decisions for object complexes of means of influence (OSSV), which is additionally introduced into the PPOIU 2.9 ...

The special software (SPS) of the calculator 2.7.1 ensures the determination of the functional dependencies of the states of the SPS OTS on time, and the SPS of the calculator 2.7.2 - obtaining predictive estimates of the times when the states of the SPS OTS and the states of the n-th types of activities of the OTS reach critical values.

Before the start of application of the system, enter into each database 2.7.3:

identifiers ID = IO, IS, where IK = IO _k , k = 1, ..., K - identifiers of the IGO and IS = IS _m , m = 1, ..., M - identifiers of the m-th SP OTN;

the sequence {t _r }, r = 1, ..., R _η times of receiving from AT of the elements of the state matrices of the m-th SS OTN;

или критических, например,

состояниях m-го СП ОТС, свидетельствующие о нормальном (штатном) состоянии структурного подразделения или появлении угрозы для этого структурного подразделения и необходимости принятия действий по ее устранению или недопущению ее (угрозы) появления, соответственно;data on valid, for example,

or critical, for example,

states of the m-th SP OTS, indicating the normal (standard) state of the structural unit or the appearance of a threat for this structural unit and the need to take action to eliminate it or prevent its (threat) appearance, respectively;

и критических, например,

состояниях n-го вида деятельности ОТС, свидетельствующие о нормальном (штатном) состоянии структурного подразделения или появлении угрозы для этого структурного подразделения и необходимости принятия действий по недопущению ее (угрозы) появления, соответственно.data on valid, for example,

and critical, for example,

states of the n-th type of OTS activity, indicating the normal (regular) state of the structural unit or the appearance of a threat to this structural unit and the need to take action to prevent its (threat) appearance, respectively.

The block for the formation of control decisions for territorial sets of means of influence 2.8 can be made in the form of serially connected computers 2.8.1 and 2.8.2 with a database connected to them 2.8.3, while the input of block 2.8 is connected to the first output of the block for predicting the state of the SP OTS 2.7 , the output of block 2.8 is connected to the first input of the transmitter of information "packets" 2.4.

значения состояний

m-го СП ОТС, а СПО вычислителя 2.8.2 - формирование управляющих решений для ТКСВ 6.SPO calculator 2.8.1 provides the definition of acceptable time intervals for response to critical

state values

m-th JV OTS, and STR of the calculator 2.8.2 - the formation of control decisions for TCSV 6.

Before the start of application of the system, enter into each database 2.8.3:

значений состояний

m-го СП ОТС, в первые элементы всех строк которых вносят номера СВ, первым элементам столбцов матриц присваивают критические

значения состояний

m-го СП ОТС, а остальным элементам - вычисленные значения затрат времени {Δt_ij} на коррекцию критических

значений состояний

m-го СП ОТС, если СВ обеспечивает коррекцию соответствующего предельного параметра состояния m-го СП ОТС, или нулевые значения в противном случае;matrices of efficiency of correction of critical

state values

of the m-th SP OTN, in the first elements of all rows of which the numbers of CB are entered, the first elements of the columns of the matrices are assigned the critical

state values

m-th SP OTS, and the rest of the elements - the calculated values of the time spent {Δt _ij } for the correction of critical

state values

the m-th SP OTS, if the SV provides the correction of the corresponding limiting parameter of the state of the m-th SP OTS, or zero values otherwise;

на коррекцию критических

значений состояний

m-го СП ОТС, идентификаторов СП ОТС и их координат; Т₂ - текстовая часть управляющих решений, содержание которых формируется в зависимости от результатов прогнозирования состояния

m-го СП ОТС во времени.a dictionary of terms that are used to form the text part T = {T ₁ , T ₂ } of control decisions on changing the limiting parameters of the state of the m-th SP OTS. In this case, T ₁ is the text part of a uniform form for SP OTS, which is designed to display permissible time intervals

to correct critical

state values

the m-th ST OTS, identifiers of the ST OTS and their coordinates; T ₂ - the text part of the control decisions, the content of which is formed depending on the results of predicting the state

m-th SP OTS in time.

The block for the formation of control decisions for OKSV 2.9, can be made in the form of serially connected computers 2.9.1 and 2.9.2 with a database 2.9.3 connected to them, as well as a block for correcting tasks AT 1 for monitoring connected to the second output of the computer 2.9.1 parameters of the MPO state, while the input of block 2.9 is connected to the third output of block 2.7, and the output of block 2.9 is connected to the third input of the transmitter of information "packets" 2.3.

k-го МПО, а СПО вычислителя 2.9.2 - формирование управляющих решений для ОКСВ 5.The STR of the calculator 2.9.1 must ensure the determination of the permissible time intervals of a proactive response to the critical values of the signs of non-compliance of the state parameters

k-th MPO, and the STR of the calculator 2.9.2 - the formation of control decisions for the OCSV 5.

Before the start of application of the system, enter into each database 2.9.3:

identifiers ID = {IS, IO, IY}, where IS = {IS _η } - AT identifiers, IO = {IO _k }, k = 1, ..., K - IGO identifiers and IY = {y _kj } - monitored parameters identifiers state of the IGO;

рекомендаций по изменению аномальных параметров состояния МПО. При этом

- текстовая часть единой для МПО формы, которая предназначена для отображения возможного временного интервала

на изменение аномальных

параметров МПО, идентификаторов МПО и их координат;

- текстовая часть рекомендаций, содержание которых формируется в зависимости от результатов прогнозирования изменения аномальных значений параметров состояния k-го МПО во времени;a dictionary of terms that are used to form the text part

recommendations for changing the abnormal parameters of the state of the MPO. Wherein

- the text part of a uniform form for MPS, which is designed to display a possible time interval

to change abnormal

IGO parameters, IGO identifiers and their coordinates;

- the text part of the recommendations, the content of which is formed depending on the results of predicting changes in the abnormal values of the state parameters of the k-th MPO in time;

a dictionary of terms that are used to form the text part of the correction of AT 1 tasks for monitoring the parameters of the state of the IGO;

значения признаков несоответствия параметров состояния МПО допустимым, а всем остальным элементам - вычисленные значения затрат времени {Δt_kj} на коррекцию предельных значений параметров состояния МПО, если СВ обеспечивает коррекцию соответствующего предельного параметра состояния МПО, или нулевые значения в противном случае;the formation of matrices of efficiency of correction of the state of the MPO, in the first elements of all rows of which the numbers of CB are entered, the first elements of the matrix columns are assigned critical

the values of the signs of inconsistency of the state parameters of the MPO with admissible, and for all other elements - the calculated values of the time spent {Δt _kj } for the correction of the limit values of the state parameters of the MPO, if the SV provides the correction of the corresponding limit parameter of the state of the MPO, or zero values otherwise;

selection from the matrix of promptness of correcting the state of the MPO means of influence, providing the maximum values of the permissible time intervals of a proactive response to the critical values of signs of inconsistency of the parameters of the state of the MPO with the permissible;

formation of control decisions (orders, instructions, etc.) containing the types of means of influence, the numbers of the parameters of the IGO and the moments of the beginning of the correction of their current values;

transfer of control decisions to means of influence;

preparation of corrected AT tasks using the generated control solutions, containing:

identifiers ID = IS, IO, IY, where IS = IS _η - identifiers AT, IO = IO _k , k = 1,…, K - identifiers of the IGO and IY = y _kj - identifiers of the corrected parameters of the state of the IGO;

sequence of time points {t _n }, n = 1, ..., N _{η of} transmission of the results of estimating the values of the state parameters of the MPS from AT to the PPOIU, while t _n = t ₀ + nΔ _η , where t ₀ is the start time of monitoring, Δ _η - set for the η-th AT time interval for transmitting the state matrices of the MPS, the value of which can decrease depending on the results of the correction of the state parameters of the MPS;

transmission of the corrected AT jobs to the corresponding subscriber terminals.

состояния входящего в СП ОТС МПО k-го типа, представляющего собой сумму произведений весовых коэффициентов j-ых параметров k-го МПО на значения признаков соответствия фактических значений j-ых параметров состояния k-го МПО допустимому (примеры приведены в таблице 1). «Посылки» целевой информации по линиям связи 1-2 поступают на приемники целевой информации 2.1 ППОИУ 2 и далее в блок 2.7, в вычислителе 2.7.1 которого формируются матрицы состояния

m-го СП ОТС (примеры матриц приведены в таблицах 2…4), первые элементы каждой из строк которых соответствуют значениям t={t_ƒ} моментов определения состояния МПО, а все остальные элементы, кроме последнего, соответствуют «вкладу» k-го МПО в состояние СП ОТС, представляющего собой произведение весового коэффициента k-го МПО, входящего в m-е структурное подразделение ОТС, на значение состояния МПО k-го типа, входящего в СП ОТС. Последние элементы каждой из строк матрицы состояния

m-го СП ОТС соответствуют сумме «вкладов» всех входящих в m-е структурное подразделение ОТС многопараметрических объектов. По мере заполнения, не менее чем, четырех строк в каждой матрице состояния

m-го СП ОТС в вычислителе 2.7.1 формируются матрицы

состояния n-го вида деятельности ОТС (пример матрицы приведен в таблице 5), первые элементы каждой из строк которых соответствуют значениям t={t_ƒ) моментов определения состояния МПО, а остальные элементы, кроме последнего, соответствуют «вкладу» m-го СП ОТС в состояние n-го вида деятельности ОТС, представляющего собой произведение весовых коэффициентов «вклада» m-го СП ОТС в n-й вид деятельности ОТС на значения состояния

m-го СП ОТС. Последние элементы каждой из строк матрицы

состояния n-го вида деятельности ОТС соответствуют сумме «вкладов» всех входящих в организационно-техническую систему СП в состояние n-го вида деятельности ОТС. По мере накопления необходимого количества (не менее четырех) строк в матрицах

состояния n-го вида деятельности ОТС в вычислителе 2.7.1 с использованием известного метода, описанного, например, в [4. Патент RU 2627242, С2 МПК G05B 15/02, G06F 19/00, G06F 17/10, опубликованного 04.08.2017 г. Бюл. №22] определяют виды функциональных зависимостей состояний

n-го вида деятельности ОТС от времени, далее в вычислителе 2.7.2 с использованием полученных функциональных зависимостей определяют прогнозные оценки моментов достижения

критических значений состояний

n-го вида деятельности ОТС, дальнейшие действия выполняются в зависимости от результатов проверки выполнения ряда условий, при этом:

то вычисленные значения

передают с выхода 1 блока 2.7 в блок 2.8, вычислитель 2.8.1 которого обеспечивает определение допустимых временных интервалов реагирования на критические

значения состояний

m-го СП ОТС путем вычисления разности между значениями

и t={t_ƒ}. Далее в вычислителе 2.8.2 осуществляется выбор из матрицы оперативности коррекции критических

значений состояний

m-го СП ОТС средств воздействия (пример матрицы приведен в таблице 6), обеспечивающих максимальные значения допустимых временных интервалов упреждающего реагирования на критические значения состояний

m-го СП ОТС и формирование для территориальных комплексов средств воздействия управляющих решений (приказов, распоряжений и т.д.), содержащих типы средств воздействия, идентификаторы m-ых СП ОТС и моменты начала коррекции их текущих состояний. Сформированные управляющие решения с выхода блока 2.8 передаются на вход 1 передатчика «пакетов» информации 2.4 для последующей передачи по линиям связи на ТКСВ 6; при выполнении условия:

т.е. в результате прогноза не выявлены факты появления критических значений состояний

n-го вида деятельности ОТС, с выхода 2 блока 2.7 осуществляется передача значений

состояния входящего в СП ОТС МПО k-го типа (примеры приведены в таблице 1) на вход блока 2.2, в котором выполняются операции в соответствии со штатным алгоритмом функционирования прототипа; если же выполняется условие:

то вычисленные значения

передают с выхода 3 блока 2.7 в блок 2.9, вычислитель 2.9.1 которого обеспечивает определение допустимых временных интервалов упреждающего реагирования на критические значения

признаков несоответствия параметров состояния

k-го МПО путем вычисления разности между значениями

и t={t_n}, на основании которых осуществляется выбор из матрицы оперативности коррекции состояния МПО средств воздействия из ОКСВ, для которых в вычислителе 2.9.2 формируются управляющие решения (приказы, распоряжения и т.д.), содержащие типы средств воздействия, номера параметров МПО и моменты начала коррекции их текущих значений. Сформированные управляющие решения передаются на вход блока 2.3, а также используются в качестве исходных данных в блоке 2.9.3 при корректировке заданий для AT 1, содержащих: идентификаторы абонентских терминалов, многопараметрических объектов и параметров состояния МПО, моменты начала коррекции текущих аномальных значений параметров состояния МПО, а также интервалы времени передачи элементов матриц состояния МПО с AT 1 в ППОИУ 2, уменьшенные в зависимости от результатов коррекции аномальных значений параметров состояния МПО. Далее сформированные в блоке 2.3 пакеты информации поступают на передатчик 2.4 и далее с антенны 2.6 по линиям связи 2 - 3 на региональные станции приема информации 3, которые связаны с потребителями информации, а по направлению 2 - 1 на AT 1. «Пакеты» информации с ППОИУ также могут быть переданы потребителям через соответствующие аппаратно-программные комплексы, обеспечивающие выход в сеть Интернет и на наземные линии связи.In general, the work of the proposed system is characterized by the following. Subscriber terminals 1 that are constantly in active mode with a given periodicity {t _n }, n = 1, ..., N _η form “messages” of target information containing, along with the consumer identification code, the content of the SPS signal, the value t = {t _ƒ } of the moment determining the meaning

the state of the K-th type OTS OTS included in the joint venture, which is the sum of the products of the weight coefficients of the j-th parameters of the k-th MPS by the values of signs that the actual values of the j-th parameters of the state of the k-th MPS correspond to the permissible values (examples are given in Table 1). "Parcels" of target information via communication lines 1-2 arrive at the receivers of target information 2.1 PPOIU 2 and then to block 2.7, in the calculator 2.7.1 of which state matrices are formed

of the m-th SP OTS (examples of matrices are given in tables 2 ... 4), the first elements of each of the rows of which correspond to the values t = {t _ƒ } of the moments of determining the state of the MPS, and all other elements, except for the last one, correspond to the “contribution” of the k-th MPO into the state of the SP OTS, which is the product of the weight coefficient of the k-th MPO included in the m-th structural subdivision of the OTS, by the value of the state of the MPO of the k-type included in the SP OTS. The last elements of each row of the state matrix

of the m-th OTS JV correspond to the sum of "contributions" of all multi-parameter objects included in the m-th OTS structural subdivision. As filling, at least four rows in each state matrix

of the m-th SS OTS in the calculator 2.7.1 matrices are formed

states of the n-th type of OTS activity (an example of the matrix is given in Table 5), the first elements of each of the rows of which correspond to the values t = {t _ƒ ) of the moments of determining the state of the IGO, and the remaining elements, except for the last one, correspond to the "contribution" of the m-th joint venture OTS to the state of the n-th type of OTS activity, which is the product of the weight coefficients of the "contribution" of the m-th OTS JV to the n-th type of OTS activity by the state values

m-th joint venture OTS. The last elements of each of the rows of the matrix

the states of the n-th type of OTS activity correspond to the sum of "contributions" of all the JV's organizational and technical system to the state of the n-th type of OTS activity. As you accumulate the required number (at least four) rows in the matrices

states of the n-th type of OTS activity in the calculator 2.7.1 using a well-known method described, for example, in [4. Patent RU 2627242, C2 IPC G05B 15/02, G06F 19/00, G06F 17/10, published 04.08.2017, Bul. No. 22] define the types of functional dependencies of states

of the n-th type of OTS activity on time, then in the calculator 2.7.2 using the obtained functional dependencies, predictive estimates of the moments of achievement

critical state values

of the n-th type of OTS activity, further actions are performed depending on the results of checking the fulfillment of a number of conditions, while:

then the calculated values

transmitted from the output 1 of block 2.7 to block 2.8, the calculator 2.8.1 of which provides the determination of the permissible time intervals for response to critical

state values

m-th SP OTS by calculating the difference between the values

and t = {t _ƒ }. Further, in calculator 2.8.2, the selection from the matrix of efficiency of correction of critical

state values

of the m-th SP OTS of means of influence (an example of the matrix is given in Table 6), providing the maximum values of the admissible time intervals of a proactive response to the critical values of the states

of the m-th SP OTS and the formation for territorial complexes of means of influence of control decisions (orders, orders, etc.) containing types of means of influence, identifiers of the m-th SP OTS and the moments of the beginning of the correction of their current states. The generated control decisions from the output of block 2.8 are transmitted to the input 1 of the transmitter of "packets" of information 2.4 for subsequent transmission via communication lines to TCSV 6; when the condition is met:

those. as a result of the forecast, the facts of the appearance of critical values of states were not revealed

of the n-th type of OTS activity, from the output of block 2.7, the values are transmitted

the state of the K-type OTS of the OTS of the JV (examples are given in Table 1) to the input of block 2.2, in which operations are performed in accordance with the standard algorithm for the functioning of the prototype; if the condition is met:

then the calculated values

transmitted from the output 3 of block 2.7 to block 2.9, the calculator 2.9.1 of which ensures the determination of the permissible time intervals of a proactive response to critical values

signs of mismatch of state parameters

k-th MPS by calculating the difference between the values

and t = {t _n }, on the basis of which the choice from the matrix of the operativeness of the correction of the state of the MPO of the means of influence from the ACSV is carried out, for which control decisions (orders, orders, etc.) are formed in the calculator 2.9.2, containing the types of means of influence, the numbers of the MPO parameters and the moments of the beginning of the correction of their current values. The generated control decisions are transmitted to the input of block 2.3, and are also used as initial data in block 2.9.3 when correcting tasks for AT 1, containing: identifiers of subscriber terminals, multiparameter objects and parameters of the MPO state, moments of the beginning of the correction of the current anomalous values of the state parameters of the MPO , as well as the time intervals for transferring the elements of the state matrices of the MPO with AT 1 to the PPOIU 2, reduced depending on the results of the correction of the anomalous values of the state parameters of the MPO. Further, the information packets formed in block 2.3 are sent to transmitter 2.4 and then from antenna 2.6 via communication lines 2 - 3 to regional stations for receiving information 3, which are connected with information consumers, and in direction 2 - 1 to AT 1. "Packets" of information from PPOIU can also be transferred to consumers through the appropriate hardware and software systems that provide access to the Internet and land lines.

Thus, an additional input to each point of receiving, processing information and control of a unit for predicting the state of structural subsystems of an organizational and technical system, a unit for forming control decisions for territorial complexes of influence means and a block for forming control decisions for object complexes of influence means provides an operational time scale, close to real, the prevention of threats of emergence of critical situations in the activities of OTS based on the use of monitoring data of the state of their MPS.

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 proposed complex, showed that in publicly available information sources no solutions have been identified that have features that coincide with its distinctive features.

The prior art also does not confirm the known influence of the distinctive features of the claimed invention on the technical result indicated by the applicant, therefore, the claimed invention meets the condition "inventive step".

The proposed technical solution is industrially applicable, since standard components and common programming languages can be used for its implementation.

Claims (1)

A subsystem for managing the activities of an organizational and technical system containing a complex of ground subscriber terminals consisting of a series-connected receiving antenna, a GLONASS / GPS signal receiver (GLONASS / GPS space navigation system) and tasks for monitoring the parameters of multi-parameter objects, a set of sensors, a block for forming multi-parameter state matrices objects, a transmitter of target information and a transmitting antenna, a complex of ground points for receiving, processing information and control as part of a serially connected receiving antenna of target information, a receiver of target information, a block for predicting anomalous values of state parameters of multi-parameter objects, a block for forming "packets" of information, a transmitter of "packets »Information and transmitting antenna; a complex of territorial radio stations for receiving and transmitting information, characterized in that each point of receiving, processing information and control additionally includes a block for predicting the state of structural subsystems of the organizational and technical system, the input of which is connected to the output of the receiver of target information, the first output of this block is additionally connected to the input a block for generating control decisions for territorial complexes of means of influence introduced at the point of reception, processing of information and control, the second output - with the input of the block for predicting anomalous values of the state parameters of multiparametric objects, and the third output - with the input of the block additionally introduced into the point of receipt, processing of information and control of the block forming control decisions for object complexes of means of influence, while the output of the block for forming control decisions for territorial complexes of means of influence is connected to the first input of the transmitter of information "packets" and, and the output of the block for forming control decisions for object complexes of means of influence - with the third input of the block for transmitting "packets" of information.

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