RU196150U1 - DEVICE FOR SOLVING THE PROBLEM OF EVALUATING THE COMPLEX OF ACTIONS FOR THE RE-EQUIPMENT OF THE PARK OF RADIO ELECTRONIC TECHNOLOGY OF RADIO ENGINEERING PARTS AND GROUPING DIVISIONS OF THE AIR DEFENSE TROOPS - Google Patents

Abstract

The utility model relates to computer technology and can be used to automatically determine an indicator for assessing a set of measures to re-equip a fleet of radio-electronic equipment (RET) for radio engineering units and units of the air defense forces grouping. The utility model can be used in automated systems of information and logistics support for monitoring, technical operation and maintenance of weapons, military and special air defense equipment as part of the tasks of planning program activities for the technical re-equipment of radio parts and units of the air defense forces group. The purpose of the utility model is to determine the generalized coefficient of the state of the RET fleet of radio engineering units and units of the air defense forces grouping, depending on the parameters of the package of measures to re-equip the RET fleet of radio engineering units and units of the air defense forces group. The technical result is the expansion of the scope and informative capabilities of the device through the implementation of a mathematical model that allows you to calculate the value of the generalized coefficient of the state of the park of radio engineering units and units of the air defense forces. A device for solving the task of evaluating a set of measures for the re-equipment of the RET fleet of radio engineering units and units of the air defense forces grouping contains a control unit, two subtraction units, sixteen addition units, eight multiplication units and four division units. The use of the proposed device will avoid routine computational work related to solving the problems of calculating the generalized coefficient of the state of the radio-electronic unit of the air defense units and units of the air defense forces group, for which a set of measures is being taken to re-equip the radio-electronic unit of the radio engineering units and units of the air defense forces group, as well as improve the accuracy of determining this coefficient. 1 ill.

Description

The utility model relates to computer technology and can be used to automatically determine an indicator for evaluating a set of measures to re-equip a fleet of radio-electronic equipment (RET) for radio engineering units and units of the air defense forces grouping.

The utility model can be used in automated systems of information and logistics support for monitoring, technical operation and maintenance of armaments, military and special equipment (VVST) air defense in the framework of solving the problems of planning a set of measures for the technical re-equipment of radio parts and units of the air defense forces.

The purpose of the utility model is to determine the generalized coefficient of the status of the RET fleet of radio engineering units and units of the air defense forces grouping depending on the parameters of the package of measures to re-equip the RET fleet of radio engineering units and units of the air defense forces group.

The technical result is the expansion of the scope and informative capabilities of the device through the implementation of a mathematical model that allows you to calculate the value of the generalized coefficient of the state of the park of radio engineering units and units of the air defense forces.

The application of the proposed device will avoid routine computational work associated with solving the problems of calculating the generalized coefficient of the state of the radio-electronic unit of the air defense units and units of the air defense forces group, for which a set of measures is being taken to re-equip the radio-electronic unit of the radio engineering units and units of the air defense forces group, as well as improve the accuracy of determining this coefficient.

Known devices [1, 2], designed to determine the optimal frequency of maintenance of complex systems. These devices are applicable only to systems for which the temporary maintenance parameters of each subsystem are set.

A device for determining the operational and technical characteristics of the product [3], which contains m calculators of availability factors, components (according to the number of functional subsystems of the product). Each such calculator includes 2 keys, the information inputs of which are inputs of the calculator; a divider whose output is the output of the calculator; 2 adders, the input of one of them is the input of the calculator; and the output is the output of the calculator.

A device for determining the acceptable time to restore the system [4], which contains m calculators of the coefficient of availability of subsystems. Each of them includes an amplifier, two adders, a divider and a delay element. The device also contains a system availability factor calculator, consisting of m-1 multipliers, a block of m-2 delay elements; a time sensor, a waiting multivibrator, a comparator, keys, two delay elements, a memory element and a block of output circuits, each of which is a memory element and a key connected in series.

A device for determining the required time to restore the readiness of the product for use [5], which contains m calculators of the coefficients of readiness of the subsystems, each of which includes an amplifier, a subtractor, two adders, two toggle switches and a divider. The device also includes a delay unit including m-2 delay elements, a multiplication unit including m-1 multipliers; two toggle switches, a key, a time sensor, a multivibrator, a delay element and a comparison element.

A device for determining optimal maintenance programs of the system [6], which contains a memory block, two multiplication blocks, three adders, a nonlinearity block, a time sensor, four delay elements, a comparison block, two division blocks, a trigger, four keys, a shift register , three gates, an OR circuit, two subtractors, a waiting multivibrator, a memory element and an integrator.

A device for determining the optimal periods of maintenance of the system [7], which contains a memory block, two multiplication blocks, three adders, a nonlinearity block, a time sensor, a comparator, three delay elements, a trigger, a memory element, a key, a shift register and an OR circuit , three gates, three keys, a fourth delay element and a standby multivibrator.

A device for determining the values of the reliability characteristics of the product [8], which contains two non-linearity units, two integrators, eight adders, two multiplication units, a comparison unit, seven delay elements, two dividers, two amplifiers and seven keys.

A device for determining the optimal frequency of monitoring the state of the product [9], which contains a memory unit, six valves, a multivibrator, six adders, an OR circuit, two triggers, an attenuator, four non-linearity blocks, two accumulative adders, four multiplication units, a comparator, three subtractors , two integrators, four delay elements, a division block and four memory elements.

A device for determining the optimal period of monitoring and control of the technical condition of the product [10], which contains a memory unit, six valves, five adders, a multivibrator, two triggers, two accumulating adders, an OR circuit, four non-linearity blocks, a comparator, four multiplication blocks, two a subtractor, four delay elements, four memory elements, two integrators and a divider.

The disadvantage of these known systems [1-10] is the limited scope due to the inability to use them to automatically solve the problem of evaluating a set of measures to re-equip the radio fleet of radioelectronic units and units of the air defense forces group, due to the inability of these systems to provide an automated calculation of the generalized coefficient of the status of the radioelectric fleet units and subunits of the air defense forces grouping.

For these reasons, the known devices [1-10] cannot be used for the automated determination of the generalized coefficient of the condition of the RET fleet of radio engineering units and units of the air defense forces group in the framework of solving the problems of substantiating a rational set of measures for re-equipping the RET fleet of radio engineering units and units of the air defense forces group in the future a complex of military automation equipment.

A device for solving the problem of determining the coefficient of technical use of a complex technical system subjected to maintenance and repair [11], which contains a control unit, seven multiplication units, eight addition units and a division unit.

In the device for calculating the coefficient of technical use of a complex technical system subjected to maintenance and repair in order to assess its reliability, the device takes into account the total operating time of the system for a certain period of operation, the average total operational duration of all types of technical maintenance (TS) of the system for the same period of operation, the average total operational duration of all types of system repairs for the same period of operation, however, the device does not take into account the influence of steam meters of a package of measures to refurbish the park RET radio units and elements grouping of air defense forces.

A device is known for solving the problem of assessing the degree of influence of the characteristics of the repair system on the performance of the weapons fleet, military and special equipment of the air defense forces grouping [12], which contains a control unit, eleven multiplication units, eight addition units and four division units.

In the device for solving the problem of assessing the degree of influence of the characteristics of the repair system on the performance of the weapons fleet, military and special equipment of the air defense forces group, the total operating time of the system for a certain period of operation, the average total operational duration of all types of system maintenance for the same period of operation, and the average total operational the duration of all types of system repairs for the same period of operation, the number of maintenance of all types, the average duration of the specified type in TO, the average duration of the current system of repairs, the average duration of medium repairs of the system, the average length of major repairs, but the device does not include the effect of the parameters of complex measures to refurbish the park RET radio units and elements grouping of air defense forces.

, на который подается значение показателя количественного состояния существующего парка без программных мероприятий развития парка техники, соединен с первым информационным входом блока 9 сложения, вход

, на который подается значение количества исправных образцов РЭТ в существующем парке без программных мероприятий развития парка техники, соединен с первым информационным входом блока 11 сложения, вход

, на который подается значение количества современных образцов РЭТ в существующем парке без программных мероприятий развития парка техники, соединен с первым информационным входом блока 13 сложения, вход

, на который подается значение объемов суммарно ремонтируемой РЭТ на предприятиях промышленности, соединен со вторым информационным входом блока 11 сложения, вход

, на который подается значение объемов программных мероприятий по продлению ресурса техники в результате модернизации при капитальном ремонте на предприятиях промышленности, соединен со вторым информационным входом блока 9 сложения и со вторым информационным входом блока 13 сложения, вход

, на который подается значение объемов программных мероприятий по закупкам современных образцов, соединен с первым информационным входом блока 10 сложения, с первым информационным входом блока 12 сложения и с первым информационным входом блока 14 сложения, вход

, на который подается значение объемов программных мероприятий по модернизации образцов, соединен со вторым информационным входом блока 10 сложения, со вторым информационным входом блока 12 сложения, со вторым информационным входом блока 14 сложения, вход

, на который подается значение объемов программных мероприятий по закупкам перспективных образцов, соединен с первым информационным входом блока 8 умножения, вход

, на который подается значение коэффициента показателя технического уровня устаревшей техники, соединен со вторым информационным входом блока 5 умножения, вход

, на который подается значение показателя коэффициента технического уровня современной техники, соединен со вторым информационным входом блока 6 умножения, вход

, на который подается значение показателя коэффициента технического уровня модернизированной техники, соединен со вторым информационным входом блока 7 умножения, вход

, на который подается значение показателя коэффициента технического уровня перспективной техники, соединен со вторым информационным входом блока 8 умножения, первый выход блока 1 управления соединен с управляющими входами блоков 2, 3 вычитания и блока 4 сложения, второй выход блока 1 управления соединен с управляющими входами блоков 5, 6, 7, 8 умножения, третий выход блока 1 управления соединен с управляющими входами блоков 9, 10, 11, 12, 13, 14, 15, 16 сложения, четвертый выход блока 1 управления соединен с управляющими входами блоков 17, 18, 19, 20 сложения, пятый выход блока 1 управления соединен с управляющими входами блоков 21, 22, 23, 24 деления, шестой выход блока 1 управления соединен с управляющими входами блоков 25, 26, 27, 28 умножения, седьмой выход блока 1 управления соединен с управляющими входами блоков 29, 30 сложения, восьмой выход блока 1 управления соединен с управляющим входом блока 31 сложения, выход блока 2 вычитания соединен с первым информационным входом блока 5 умножения, выход блока 3 вычитания соединен с первым информационным входом блока 6 умножения, выход блока 4 сложения соединен с первым информационным входом блока 7 умножения, выход блока 5 умножения соединен с первым информационным входом блока 15 сложения, выход блока 6 умножения соединен со вторым информационным входом блока 15 сложения, выход блока 7 умножения соединен с первым информационным входом блока 16 сложения, выход блока 8 умножения соединен со вторым информационным входом блока 16 сложения, выход блока 9 сложения соединен с первым информационным входом блока 17 сложения, выход блока 10 сложения соединен со вторым информационным входом блока 17 сложения, выход блока 11 сложения соединен с первым информационным входом блока 18 сложения, выход блока 12 сложения соединен со вторым информационным входом блока 18 сложения, выход блока 13 сложения соединен с первым информационным входом блока 19 сложения, выход блока 14 сложения соединен со вторым информационным входом блока 19 сложения, выход блока 15 сложения соединен с первым информационным входом блока 20 сложения, выход блока 16 сложения соединен со вторым информационным входом блока 20 сложения, выход блока 17 сложения соединен со вторым информационным входом блока 21 деления, с первым информационным входом блока 22 деления и с первым информационным входом блока 24 деления, выход блока 18 сложения соединен со вторым информационным входом блока 22 деления, выход блока 19 сложения соединен со вторым информационным входом блока 23 деления, выход блока 20 сложения соединен со вторым информационным входом блока 24 деления, выход блока 25 умножения соединен с первым информационным входом блока 29 сложения, выход блока 26 умножения соединен со вторым информационным входом блока 29 сложения, выход блока 27 умножения соединен с первым информационным входом блока 30 сложения, выход блока 28 умножения соединен со вторым информационным входом блока 30 сложения, выход блока 29 сложения соединен с первым информационным входом блока 31 сложения, выход блока 30 сложения соединен со вторым информационным входом блока 31 сложения, выход блока 31 сложения соединен с выходным устройством K_COCT.This goal is achieved by the fact that in the device for solving the task of evaluating a set of measures for the re-equipment of the radioelectronic engineering and radio engineering park and the air defense forces, the control unit contains two subtraction units, sixteen addition units, eight multiplication units and four division units, with input P providing for starting the device and zeroing all units of the device is connected to the control input of the control unit 1, the input α ^main , to which the value of the coefficient of influence of the display the equipment of a general level of problem solving by this type of equipment, connected to the first information input of the multiplication unit 25, the input α ^isp , to which the value of the coefficient of influence of the health indicator on the general level of problem solving by this type of equipment is connected, is connected to the first information input of the multiplication block 26, the input α ^sovr , to which the value of the coefficient of influence of the indicator of modernity on the general level of solving problems by this type of equipment is supplied, is connected to the first information input of the multiplication unit 27, the input α ^TU , by which is supplied with the value of the coefficient of influence of the technical level indicator on the general level of problem solving by this type of equipment, connected to the first information input of the multiplication unit 28, the input N ^sweat , to which the value of the total nominal need for equipment samples is supplied, is connected to the first information input of the division unit 21 and with the first information input of the division unit 23, input

, to which the value of the indicator of the quantitative state of the existing park without program measures for the development of the technology park is supplied, is connected to the first information input of addition block 9, the input

, to which the value of the number of serviceable samples of RET in the existing park without program measures for the development of the technology park is supplied, is connected to the first information input of the addition unit 11, the input

, to which the value of the number of modern RET samples in the existing park without program measures for the development of the technology park is supplied, is connected to the first information input of the addition unit 13, the input

, to which the value of the volumes of the total repaired RET at industrial enterprises is supplied, is connected to the second information input of the addition unit 11, the input

, to which the value of the volumes of program measures to extend the resource of equipment as a result of modernization during overhaul at industrial enterprises is supplied, is connected to the second information input of the addition unit 9 and to the second information input of the addition unit 13

, to which the value of the volumes of program events for the procurement of modern samples is supplied, is connected to the first information input of the addition unit 10, with the first information input of the addition unit 12 and with the first information input of the addition unit 14, the input

, to which the value of the volumes of program events for upgrading the samples is supplied, is connected to the second information input of the addition unit 10, with the second information input of the addition unit 12, with the second information input of the addition unit 14, the input

, to which the value of the volume of program activities for the procurement of promising samples is fed, is connected to the first information input of the multiplication block 8, the input

, to which the value of the coefficient of the indicator of the technical level of obsolete equipment is supplied, is connected to the second information input of the multiplication unit 5, the input

, to which the value of the coefficient coefficient of the technical level of modern technology is supplied, is connected to the second information input of the multiplication unit 6, the input

, to which the value of the coefficient of the technical level coefficient of the modernized equipment is supplied, is connected to the second information input of the multiplication unit 7, the input

, to which the value of the coefficient of the technical level coefficient of advanced technology is supplied, is connected to the second information input of the multiplication unit 8, the first output of the control unit 1 is connected to the control inputs of the subtraction units 2, 3 and 4, the second output of the control unit 1 is connected to the control inputs of the blocks 5, 6, 7, 8 of the multiplication, the third output of the control unit 1 is connected to the control inputs of the addition blocks 9, 10, 11, 12, 13, 14, 15, 16, the fourth output of the control unit 1 is connected to the control inputs of the blocks 17, 18, 19, 20 addition, heel the first output of the control unit 1 is connected to the control inputs of the division blocks 21, 22, 23, 24, the sixth output of the control unit 1 is connected to the control inputs of the multiplication units 25, 26, 27, 28, the seventh output of the control unit 1 is connected to the control inputs of the blocks 29, 30, the eighth output of the control unit 1 is connected to the control input of the addition unit 31, the output of the subtraction unit 2 is connected to the first information input of the multiplication unit 5, the output of the subtraction unit 3 is connected to the first information input of the multiplication unit 6, the output of the addition unit 4 is connected to the first the information input of the multiplication unit 7, the output of the multiplication unit 5 is connected to the first information input of the addition unit 15, the output of the multiplication unit 6 is connected to the second information input of the addition unit 15, the output of the multiplication unit 7 is connected to the first information input of the addition unit 16, the output of the multiplication unit 8 is connected with the second information input of the addition unit 16, the output of the addition unit 9 is connected to the first information input of the addition unit 17, the output of the addition unit 10 is connected to the second information input of the addition unit 17, the output of the unit 11, the addition is connected to the first information input of the addition block 18, the output of the addition block 12 is connected to the second information input of the addition block 18, the output of the addition block 13 is connected to the first information input of the addition block 19, the output of the addition block 14 is connected to the second information input of the addition block 19, the output of the addition unit 15 is connected to the first information input of the addition unit 20, the output of the addition unit 16 is connected to the second information input of the addition unit 20, the output of the addition unit 17 is connected to the second information input b dividing lock 21, with the first information input of dividing unit 22 and with the first information input of dividing unit 24, the output of addition unit 18 is connected to the second information input of dividing unit 22, the output of addition unit 19 is connected to the second information input of dividing unit 23, the output of addition unit 20 connected to the second information input of the division unit 24, the output of the multiplication unit 25 is connected to the first information input of the addition unit 29, the output of the multiplication unit 26 is connected to the second information input of the addition unit 29, the output of the multiplication unit 27 connected to the first information input of the addition unit 30, the output of the multiplication unit 28 is connected to the second information input of the addition unit 30, the output of the addition unit 29 is connected to the first information input of the addition unit 31, the output of the addition unit 30 is connected to the second information input of the addition unit 31, block output 31 addition connected to the output device K _COCT .

The device implements the following theoretical provisions. The quantitative and qualitative state of the RET fleet of radio engineering units and subunits of the air defense forces group is assessed in order to determine the degree of provision with modern RET models and the staffing (in terms of number and nomenclature) of the organizational and staff formations of the air defense forces with the main types and types of military hardware and equipment.

The list of used private indicators of the state of the radio-electronic warfare park for radio-technical units and units of the air defense forces group includes the following:

an indicator of the equipment of the RET fleet of radio engineering units and units of the air defense forces group K ^main ;

an indicator of the modernity of the RET fleet of radio engineering units and units of the air defense forces group K ^owls ;

health indicator indicator of the park RET of radio engineering units and units of the air defense forces group K ^isp ;

a generalized indicator of the coefficient of the technical level of the RET fleet of radio engineering units and units of the air defense forces group K ^TU .

On the basis of private indicators of the state, a generalized coefficient of the state of the radio electronic equipment fleet of radio engineering units and units of the air defense forces group is determined:

where α ^main , α ^isp , α ^owls , α ^TU are the coefficients of the influence of the analyzed parameters of the park (equipment, serviceability, the share of modern samples and the technical level) on the general level of decision by the organizational-standard formations of the air defense forces (appointed according to the results of expert evaluations).

The equipment level of the RET fleet of radio engineering units and units of the air defense forces grouping is calculated as follows:

where N ^sweat is the total nominal need for samples of radiotechnical units of radio engineering units and units of the air defense forces;

N ^cash - the presence of samples of RET radio engineering units and units of the air defense forces.

, объемов программных мероприятий по закупкам современных образцов

, объемов программных мероприятий по модернизации образцов

, а также объемов программных мероприятий по продлению ресурса техники в результате модернизации при капитальном ремонте на предприятиях промышленности

, наличие данного типа техники (N^нал) определяется следующим образом:Based on the dynamics of the state of the existing fleet without program measures for the development of the weapons system

, volumes of program activities for the procurement of modern designs

, volumes of program activities for the modernization of samples

, as well as the volume of program measures to extend the resource of equipment as a result of modernization during overhaul at industrial enterprises

, the presence of this type of equipment (N ^cash ) is determined as follows:

The modernity indicator of the RET fleet of radio engineering units and units of the air defense forces grouping is calculated as follows:

where N ^isp - the presence of a good RET of radio engineering units and subunits of the air defense forces grouping;

, объемов программных мероприятий по закупкам современных образцов

, объемов программных мероприятий по модернизации образцов

и объемов суммарно ремонтируемой на предприятиях промышленности

техники:The number of serviceable equipment is determined on the basis of the predicted availability of a working fleet of weapons and military equipment without program measures for re-equipment and scheduled repairs

, volumes of program activities for the procurement of modern designs

, volumes of program activities for the modernization of samples

and volumes of the total repaired at industrial enterprises

technicians:

The serviceability index of the RET fleet of radio engineering units and units of the air defense forces grouping is calculated as follows:

where N ^ow - the presence of modern RET radio engineering units and units of the air defense forces.

, объемов закупаемой современной техники

, объемов программных мероприятий по модернизации образцов

и модернизируемых образцов техники при капитальном ремонте на предприятиях промышленности

:The number of modern radio engineering units and air defense units of the Air Defense Forces group is determined based on the forecast number of modern models remaining by the end of the program period from the existing fleet without program measures for the development of the radio engineering units and airborne forces units of the Air Defense Forces re-equipment and modernization group

, volumes of purchased modern equipment

, volumes of program activities for the modernization of samples

and modernized models of equipment for overhaul at industrial enterprises

:

The indicator of the coefficient of the technical level of the RET fleet of radio engineering units and units of the air defense forces grouping is calculated as follows:

where N ^TU - the presence of RET radio engineering units and units of the air defense forces group taking into account the coefficients of the technical level.

The number of radio-engineering units and air defense units of radio engineering units, taking into account the technical level coefficients of various technology groups for generations, is determined based on the forecast number of the obsolete, modern, modernized and promising radio-electronic devices remaining at the end of the program period and the corresponding indicators of the technical level coefficients of different technology groups:

- показатели коэффициентов технического уровня различных по поколениям групп техники (устаревшей, современной, модернизированной и перспективной).Where

- indicators of technical level coefficients of technology groups of different generations (outdated, modern, modernized and promising).

The device implements the presented theoretical provisions and is presented in figure 1.

A device for solving the problem of evaluating a set of measures to re-equip the park of radio engineering units of radio engineering units and units of the air defense forces group operates as follows.

The operation of the device is carried out in a certain sequence specified by the clock pulses of the control unit.

.The initial installation of the device blocks occurs when a pulse is applied to the input “P”, as a result of which the control unit 1 is started, the device blocks are zeroed and the values of the following characteristics are ^sent to the information inputs of the device: α ^main , α ^isp , α ^ow , α ^TU , N ^sweat ,

.

, на второй информационный вход блока 2 вычитания поступает значение

, на выходе блока 2 вычитания формируется значение

, на первый информационный вход блока 3 вычитания поступает значение

, на второй информационный вход блока 3 вычитания поступает значение

, на выходе блока 3 вычитания формируется значение

, на первый информационный вход блока 4 сложения поступает значение

, на второй информационный вход блока 4 сложения поступает значение

, на выходе блока 4 сложения формируется значение

.The first clock pulse from the first output of the control unit 1 is supplied to the control inputs of the subtraction unit 2, the subtraction unit 3 and the addition unit 4 and initiates their operation. As a result, the first information input of the subtraction unit 2 receives the value

, the second information input of the subtraction unit 2 receives the value

, at the output of the subtraction block 2, a value is formed

, the first information input of block 3 subtraction receives the value

, the second information input of block 3 subtraction receives the value

, at the output of the subtraction block 3, a value is formed

, at the first information input of addition block 4, the value

, the second information input of block 4 of addition receives the value

, at the output of addition block 4, a value is formed

.

, на первый информационный вход блока 5 умножения с выхода блока 2 вычитания поступает значение

, на выходе блока 5 умножения формируется значение

, на второй информационный вход блока 6 умножения поступает значение

, на первый информационный вход блока 6 умножения с выхода блока 3 вычитания поступает значение

, на выходе блока 6 умножения формируется значение

, на второй информационный вход блока 7 умножения поступает значение

, на первый информационный вход блока 7 умножения с выхода блока 4 сложения поступает значение

, на выходе блока 7 умножения формируется значение

, на первый информационный вход блока 8 умножения поступает значение

, на второй информационный вход блока 8 умножения поступает значение

на выходе блока 8 умножения формируется значение

.The second clock pulse from the second output of the control unit 1 is supplied to the control inputs of the multiplication blocks 5, 6, 7, 8 and initiates their work. As a result, a value is supplied to the second information input of the multiplication unit 5

, at the first information input of the block 5 multiplication from the output of block 2 subtraction receives the value

, at the output of block 5 of the multiplication value is formed

, the second information input of the block 6 multiplication receives the value

, at the first information input of block 6 multiplication from the output of block 3 subtraction receives the value

, at the output of multiplication block 6, a value is formed

, the second information input of block 7 multiplication receives the value

, at the first information input of block 7 multiplication from the output of block 4 addition is the value

, at the output of the multiplication block 7, a value is formed

, at the first information input of block 8 multiplication receives the value

, the second information input of the block 8 multiplication receives the value

at the output of block 8 of the multiplication value is formed

.

, на второй информационный вход блока 9 сложения поступает значение

, на выходе блока 9 сложения формируется значение

, на первый информационный вход блока 10 сложения поступает значение

, на второй информационный вход блока 10 сложения поступает значение

, на выходе блока 10 сложения формируется значение

, на первый информационный вход блока 11 сложения поступает значение

, на второй информационный вход блока 11 сложения поступает значение

, на выходе блока 11 сложения формируется значение

, на первый информационный вход блока 12 сложения поступает значение

, на второй информационный вход блока 12 сложения поступает значение

, на выходе блока 12 сложения формируется значение

, на первый информационный вход блока 13 сложения поступает значение

, на второй информационный вход блока 13 сложения поступает значение

, на выходе блока 13 сложения формируется значение

, на первый информационный вход блока 14 сложения поступает значение

, на второй информационный вход блока 14 сложения поступает значение

, на выходе блока 14 сложения формируется значение

, на первый информационный вход блока 15 сложения с выхода блока 5 умножения поступает значение

, на второй информационный вход блока 15 сложения с выхода блока 6 умножения поступает значение

, на выходе блока 15 сложения формируется значение

, на первый информационный вход блока 16 сложения с выхода блока 7 умножения поступает значение

, на второй информационный вход блока 16 сложения с выхода блока 8 умножения поступает значение

, на выходе блока 16 сложения формируется значение

.The third clock pulse from the third output of control unit 1 is supplied to the control inputs of addition units 9, 10, 11, 12, 13, 14, 15, 16 and initiates their operation. As a result, the first information input of addition block 9 receives the value

, at the second information input of addition block 9, the value

, at the output of addition block 9, a value is formed

, at the first information input of addition block 10, the value

, the second information input of the addition unit 10 receives the value

, at the output of addition block 10, a value is formed

, the first information input of the addition block 11 receives the value

, the second information input of the addition unit 11 receives the value

, at the output of addition block 11, a value is formed

, the first information input of addition block 12 receives the value

, the second information input of the addition unit 12 receives the value

, at the output of addition block 12, a value is generated

, at the first information input of addition block 13, the value

, at the second information input of addition block 13, the value

, at the output of addition block 13, a value is formed

, the first information input of addition block 14 receives the value

, the second information input of the addition unit 14 receives the value

, at the output of addition block 14, a value is formed

, at the first information input of block 15 addition from the output of block 5 multiplication receives the value

, at the second information input of block 15 addition from the output of block 6 multiplication receives the value

, at the output of addition block 15, a value is formed

, at the first information input of block addition 16 from the output of block 7 multiplication receives the value

, at the second information input of addition block 16, the value from the output of multiplication block 8 is

, at the output of addition block 16, a value is formed

.

, на второй информационный вход блока 17 сложения с выхода блока 10 сложения поступает значение

, на выходе блока 17 сложения формируется значение

, на первый информационный вход блока 18 сложения с выхода блока 11 сложения поступает значение

, на второй информационный вход блока 18 сложения с выхода блока 12 сложения поступает значение

, на выходе блока 18 сложения формируется значение

, на первый информационный вход блока 19 сложения с выхода блока 13 сложения поступает значение

, на второй информационный вход блока 19 сложения с выхода блока 14 сложения поступает значение

, на выходе блока 19 сложения формируется значение

, на первый информационный вход блока 20 сложения с выхода блока 15 сложения поступает значение

, на второй информационный вход блока 20 сложения с выхода блока 16 сложения поступает значение

на выходе блока 20 сложения формируется значение

The fourth clock pulse from the fourth output of the control unit 1 is supplied to the control inputs of the addition units 17, 18, 19, 20 and initiates their operation. As a result, the value of the first information input of the addition unit 17 is output from the output of the addition unit 9

, at the second information input of the addition unit 17, the value from the output of the addition unit 10 is

, at the output of addition block 17, a value is formed

, the first information input of the addition unit 18 from the output of the addition unit 11 receives the value

, the second information input of the addition unit 18 from the output of the addition unit 12 receives the value

, at the output of addition block 18, a value is formed

, the first information input of the addition unit 19 from the output of the addition unit 13 receives the value

, the second information input of the addition unit 19 from the output of the addition unit 14 receives the value

, at the output of addition block 19, a value is formed

, the first information input of the addition unit 20 from the output of the addition unit 15 receives the value

, the second information input of the addition unit 20 from the output of the addition unit 16 receives the value

at the output of addition block 20, a value is formed

The fifth clock pulse from the fifth output of the control unit 1 is supplied to the control inputs of the blocks 21, 22, 23 and 24 of the division and initiates their work.

, на первый информационный вход блока 22 деления с выхода блока 17 сложения поступает значение N^нал, на второй информационный вход блока 22 деления с выхода блока 18 сложения поступает значение N^исп, на выходе блока 22 деления формируется значение

, на первый информационный вход блока 23 деления поступает значение N^пот, на второй информационный вход блока 23 деления с выхода блока 19 сложения поступает значение N^сов, на выходе блока 23 деления формируется значение

, на первый информационный вход блока 24 деления с выхода блока 17 сложения поступает значение N^нал, на второй информационный вход блока 24 деления с выхода блока 20 сложения поступает значение N^ТУ, на выходе блока 24 деления формируется значение

.As a result, the value N ^{sweat is} supplied to the first information input of the division unit 21, the value N ^cash is output from the output of the addition unit 17 to the second information input of the division unit 21, the value is generated at the output of the division unit 21

On the first information input unit 22 for dividing the output of addition unit 17 enters ^cash value N, the second division information input unit 22 from the output of addition unit 18 receives value N ^es, the output of division unit 22 is formed by the value

For dividing first information input unit 23 receives value N ^sweat, the second division information input unit 23 from the output of addition unit 19 receives value N ^owls, the output of division unit 23 is formed by the value

On the first information input unit 24 dividing the output of addition unit 17 enters ^cash value N, a second information input unit 24 dividing the output of addition unit 20 receives value N ^W, at the output of block 24 is formed by dividing the value

.

The sixth clock pulse from the sixth output of the control unit 1 is supplied to the control inputs of the multiplication blocks 25, 26, 27 and 28 and initiates their work.

As a result, the value of α ^basic is received at the first information input of the multiplication block 25, the value of K ^{basic is} received at the second information input of the multiplication block 25 from the output of the division unit 21, the value of α ^basic K ^main is generated at the output of the multiplication block 25, and the first information input of block 26 of multiplication the value α ^isp , the second information input of the multiplication block 26 receives the value of K ^isp from the output of the division unit 22, the value α ^isp K ^isp is formed at the output of the multiplication block 26, the first information input of the multiplication block 27 α ^ow value, K ^ow value is supplied to the second information input of the multiplication unit 27 from the output of the division unit 23, α ^ow K ^ow value is generated at the output of the multiplication unit 27, the value α ^TU is supplied to the first information input of the multiplication unit 28, and the second information input of the unit 28 of the multiplication, the output of the division unit 24 receives the value of K ^TU , at the output of the block of multiplication 28 the value α ^TU K ^TU is generated.

The seventh clock pulse from the seventh output of the control unit 1 is supplied to the control inputs of the addition units 29 and 30 and initiates their operation. As a result, at the first information input of addition unit 29 from the output of multiplication unit 25, the value of α ^basic K ^main is supplied, at the second information input of addition unit 29 from the output of multiplication unit 26 the value α is ^used K ^isp , the value of ^basic is formed at the output of addition unit 29 K ^main + α ^isp K ^isp , the value α ^ow K ^ow arrives at the first information input of the addition unit 30 from the output of the multiplication unit 27, the value α ^TU K ^TU is received at the second information input of the addition unit 30 from the output of the multiplication unit 28, at the output of block 30 additions formed I value α ^ow K ^ow -α ^TU K ^TU .

The eighth clock pulse from the eighth output of the control unit 1 is supplied to the control input of the addition unit 31 and initiates its operation. As a result, on the first information input of addition unit 31 from the output of addition unit 29 receives the value [α ^DOS K ^est + α ^isp K ^T], a second data input of the addition unit 31 from the output of addition unit 30 receives the value [α ^cos K ^cos + α ^TU K ^TU ].

Therefore, computed in block 31 adding the value K _COCT = α K ^{DOS DOS} + α K ^{es es} + α ^{cos cos} + α K ^W K ^W is supplied to the output device.

Thus, the use of the device will allow avoiding routine computational work associated with solving the problems of calculating the generalized coefficient of the status of the radio fleet of radio engineering units and units of the air defense forces group, for which a set of measures is being taken to reequip the radio park of radio engineering units and units of the air defense forces group, as well as increasing the accuracy determination of this coefficient.

Sources taken into account in the preparation of the description and claims:

1. SU 1437888, M. cl. 4 G07C 3/02, 1988.

2. SU 1679512, M. cl. 5 G07C 3/02, 1991.

3. RU 2378702 C2, IPC: G07C 3/08, 2008.

4. RU 2380755 C1, IPC: G07C 3/08, 2008.

5. RU 2393542 C1, IPC: G07C 3/08, 2008.

6. RU 2429542 C2, IPC: G07C 3/08, G05B 23/02, 2009.

7. RU 2429543 C2, IPC: G07C 3/08, G06F 11/30, G06F 17/00, 2009.

8. RU 2452028 C2, IPC: G07C 3/08, 2010.

9. RU 2476934 C1, IPC: G07C 3/08, 2011.

10. RU 2479041 C1, IPC: G07C 3/08, 2011.

11. RU 110852 U1, IPC: G07C 3/00, 2011.

12. RU 186692 U1, IPC: G07C 3/00, 2019.

Claims (1)

A device for solving the task of evaluating a set of measures for the re-equipment of the RET fleet of radio engineering units and subunits of the air defense forces grouping, comprising a control unit, two subtraction units, sixteen addition units, eight multiplication units and four division units, with input P enabling the device to start and zero all units of the device, connected to the control input of control unit 1, input α ^main , to which the value of the coefficient of influence of the equipment indicator on the general level is solved Ia problems this type equipment, connected to the first data input unit 25, multiplying input α ^isp to which a value of influence serviceability index coefficient on the overall problem solving this type of equipment, connected to the first data input of the multiplication unit 26, entrance α ^sovr on served influence index value of the coefficient of today on the overall problem solving this type of equipment, connected to the first data input of the multiplier 27, α ^TU input to which a coefficient value EFFECTS indicator technical level on the overall problem solving this type of equipment, connected to the first information multiplying the input unit 28, the input N ^pot to which a value of total staff needs art samples, coupled to the first data input unit 21, division and a first data input block 23 divisions, input

to which the value of the indicator of the quantitative state of the existing park without program measures for the development of the technology park is supplied, connected to the first information input of addition block 9, the input

, to which the value of the number of serviceable samples of RET in the existing park without program measures for the development of the technology park is supplied, is connected to the first information input of the addition unit 11, the input

to which the value of the number of modern RET samples in the existing park without program measures for the development of the technology park is supplied, is connected to the first information input of addition block 13, the input

to which the value of the volumes of the total repaired RET at industrial enterprises is supplied, connected to the second information input of the addition block 11, the input

, to which the value of the volumes of program measures to extend the resource of equipment as a result of modernization during overhaul at industrial enterprises is supplied, is connected to the second information input of the addition unit 9 and to the second information input of the addition unit 13

to which the value of the volumes of program activities for the procurement of modern designs is supplied, connected to the first information input of the addition unit 10, with the first information input of the addition unit 12 and with the first information input of the addition unit 14, input

to which the value of the volumes of program events for upgrading the samples is supplied, connected to the second information input of the addition unit 10, with the second information input of the addition unit 12, with the second information input of the addition unit 14, input

, to which the value of the volume of program activities for the procurement of promising samples is fed, is connected to the first information input of the multiplication block 8, the input

, to which the value of the coefficient of the indicator of the technical level of obsolete equipment is supplied, is connected to the second information input of the multiplication unit 5, the input

, to which the value of the coefficient coefficient of the technical level of modern technology is supplied, is connected to the second information input of the multiplication unit 6, the input

, to which the value of the coefficient of the technical level coefficient of the modernized equipment is supplied, is connected to the second information input of the multiplication unit 7, the input

, to which the value of the coefficient of the technical level coefficient of advanced technology is supplied, is connected to the second information input of the multiplication unit 8, the first output of the control unit 1 is connected to the control inputs of the subtraction units 2, 3 and 4, the second output of the control unit 1 is connected to the control inputs of the blocks 5, 6, 7, 8 of the multiplication, the third output of the control unit 1 is connected to the control inputs of the addition blocks 9, 10, 11, 12, 13, 14, 15, 16, the fourth output of the control unit 1 is connected to the control inputs of the blocks 17, 18, 19, 20 addition, heel the first output of the control unit 1 is connected to the control inputs of the division blocks 21, 22, 23, 24, the sixth output of the control unit 1 is connected to the control inputs of the multiplication units 25, 26, 27, 28, the seventh output of the control unit 1 is connected to the control inputs of the blocks 29, 30, the eighth output of the control unit 1 is connected to the control input of the addition unit 31, the output of the subtraction unit 2 is connected to the first information input of the multiplication unit 5, the output of the subtraction unit 3 is connected to the first information input of the multiplication unit 6, the output of the addition unit 4 is connected to the first the information input of the multiplication unit 7, the output of the multiplication unit 5 is connected to the first information input of the addition unit 15, the output of the multiplication unit 6 is connected to the second information input of the addition unit 15, the output of the multiplication unit 7 is connected to the first information input of the addition unit 16, the output of the multiplication unit 8 is connected with the second information input of the addition unit 16, the output of the addition unit 9 is connected to the first information input of the addition unit 17, the output of the addition unit 10 is connected to the second information input of the addition unit 17, the output of the unit 11, the addition is connected to the first information input of the addition block 18, the output of the addition block 12 is connected to the second information input of the addition block 18, the output of the addition block 13 is connected to the first information input of the addition block 19, the output of the addition block 14 is connected to the second information input of the addition block 19, the output of the addition unit 15 is connected to the first information input of the addition unit 20, the output of the addition unit 16 is connected to the second information input of the addition unit 20, the output of the addition unit 17 is connected to the second information input b dividing lock 21, with the first information input of dividing unit 22 and with the first information input of dividing unit 24, the output of addition unit 18 is connected to the second information input of dividing unit 22, the output of addition unit 19 is connected to the second information input of dividing unit 23, the output of addition unit 20 connected to the second information input of the division unit 24, the output of the multiplication unit 25 is connected to the first information input of the addition unit 29, the output of the multiplication unit 26 is connected to the second information input of the addition unit 29, the output of the multiplication unit 27 connected to the first information input of the addition unit 30, the output of the multiplication unit 28 is connected to the second information input of the addition unit 30, the output of the addition unit 29 is connected to the first information input of the addition unit 31, the output of the addition unit 30 is connected to the second information input of the addition unit 31, block output 31 addition is connected to the output device K _comp .

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