RU2698418C1 - Automated device for examination of mounting circuits and circuit diagrams - Google Patents

Abstract

FIELD: information technology.SUBSTANCE: invention relates to the field of information technologies, in particular to devices for examination of mounting circuits (MC) and circuit diagrams (CD), and can be used for checking railway technical documentation. In order to achieve technical result, proposed is an automated device for examination of wiring and circuitry, which includes modules (1), (2) respectively loading MC and CD, modules (3), (4) for constructing models, respectively, of MC and CD, modules (6), (7) for viewing models respectively of MC and CD, modules (8), (9) for diagnosing state of models, respectively, of MC and CD, module (10) models comparison, circuit correction module (11) and results output module (12).EFFECT: high rate of checking circuits, high accuracy of determining errors, reduced probability of emergencies.3 cl, 3 dwg

Description

The invention relates to the field of information technology, in particular to devices for the examination of wiring diagrams (MS) and circuit diagrams (PS), and can be used to process technical documentation, its examination, including railway technical documentation.

To solve the problems of examination, verification and control of compliance of schemes, the construction of a combined model is required. The concept of building a model of this type is to apply the technology of modeling two-dimensional and three-dimensional graphics. A two-dimensional model is created by nesting the descriptions of the elements of the technical documentation scheme and is a graphic layout of the scheme, which is defined by graphic primitives and their parameters. The three-dimensional representation is the localization of circuit devices and an abstract description of the operation and connections of these devices at the physical level. The final computer model of the technical documentation scheme is defined by a two-dimensional and three-dimensional representation, thereby ensuring its detail and correct construction.

From the prior art, a method is known for automatically constructing a three-dimensional geometric model of a product in an analog-based geometric modeling system, disclosed in RF patent RU 2431197. For constructing models having complex geometry, as a rule, information is presented only by basic, determining parameters, in which usually not The design and technological features of product elements are described. As a result of this, it is necessary to refine the elements of the product, which is usually performed by other specialists, and then refine the characteristics of the product, and this significantly complicates and delays the time of building the model. Also a disadvantage of this method is its narrow specialization, i.e. it does not provide for the construction of a general model of a technical documentation scheme.

The closest analogue of the considered solution is the wiring diagram visualization device disclosed in US patent application US 20120304105. This device includes a circuit loading module, a circuit model building module, and a model viewing module. The download module allows you to download images and perform format checks. The model building module provides automatic determination of all images of circuit elements, their properties, relationships, circuit structure, as well as information from cells, the formation of computer models based on the data obtained. When building models, this module forms nodes formed by links, points, and transitions. The model viewing module allows you to display detailed information on all devices, elements and circuit nodes.

The main disadvantage of this analogue is the impossibility of an automatic examination of wiring and circuit diagrams, since it only provides the output of the corresponding circuits to the monitor screen. It is not possible to reconcile circuit diagrams and wiring diagrams for inconsistencies and their subsequent correction.

The objective of the present invention is to develop an automated device for examination of wiring and circuit diagrams, ensuring the reduction of the number of errors in the technical documentation in electronic form, automation of examination, conformity control of MS and PS and intellectual adjustment of circuits, improving and quality control of technical documentation after passing the procedure for translating technical documentation from paper media in electronic form.

The technical result of the invention is to increase the speed of checking circuits, saving computing resources, increasing the accuracy of determining errors, reducing the likelihood of emergency situations.

The specified technical result is achieved in the claimed invention due to the fact that the automated device for examination of wiring and circuit diagrams includes the following modules:

- a module for loading wiring diagrams and a module for loading circuit diagrams, configured to download diagrams in the form of images, determine the type and structure of input data, and verify the data for correct format;

- a module for constructing a model of a wiring diagram and a module for constructing a model of a circuit diagram, respectively associated with modules for loading the wiring diagram and circuit diagrams and configured to automatically determine the images of circuit elements, their properties, the relationship, the structure of the circuits, as well as information about them, the subsequent formation of computer models schematic and wiring diagrams based on the data obtained and displaying the results of building computer models, while the modules for constructing models of wiring and fundamentally circuits are adapted to generate and grouping nodes formed bonds, circles and transitions that represent the electrical components and / or in-page transitions, and / or interstitials transitions and / or power poles;

- a module for viewing a model of a wiring diagram and a module for viewing a model of a circuit diagram, respectively associated with modules for constructing models of a wiring diagram and circuit diagram and configured to provide information on installation, the number of circuit elements and nodes, separately view information for each of the nodes and elements, display all available conclusions for a particular element and placement of elements;

- a module for diagnosing the state of the model of the wiring diagram and a module for diagnosing the state of the model of the circuit diagram, respectively associated with modules for viewing models of the wiring diagram and circuit diagrams and configured to detect errors that could occur during the formation and grouping of nodes in the modules for constructing models of the wiring diagram and circuit diagram;

- a module for comparing models associated with modules for diagnosing the state of models of circuit and circuit diagrams and configured to evaluate input data and / or recognition and reading information along each element and table provided by modules for constructing models of circuit diagram and circuit diagrams, ensuring verification of conformity of the circuit diagram circuit diagram;

- a module for correcting circuits associated with a module for comparing models and made with the possibility of logical analysis to automatically make corrections to circuits;

- a module for issuing results associated with the module for correcting circuits and configured to generate a report on comparing circuit models with providing detailed information on each element and / or output and installation, and generating adjusted circuits.

Additional embodiments of the device are possible so that:

- the modules for diagnosing the state of the models of the wiring and circuit diagrams were made with the ability to control the integrity of the element, and / or the presence of power supplies, and / or the ratings and attributes of the element, and / or the correct addresses of the devices, and / or the lack of re-naming of different devices, and /or

the lack of reuse of the relay windings, and / or the absence of non-existent terminals, and / or the presence of all power buses, and / or the presence of all terminal panels, and / or the absence of elements with the same mounting address, and / or mounting addresses of all elements, and / or employment contact address of the item;

- the device was performed on a hardware platform of a computer that implements a multilayer convolutional neural network and algorithms for examination at the physical level.

These advantages, as well as the features of the present invention are further explained using a possible embodiment with reference to the figures, for definiteness, as applied to electrical circuits.

In FIG. 1 shows a functional structural diagram of the claimed device.

In FIG. 2 is a structural diagram of the construction of a computer model.

In FIG. 3 shows the algorithm for constructing a computer model. The claimed device includes the following set of series-connected modules (Fig. 1):

- module 1 download circuit diagrams and module 2 download circuit diagrams;

- module 3 for constructing a model of a wiring diagram, module 4 for constructing a model of a circuit diagram;

- module 6 view model wiring diagram and module 7 view model schematic diagram;

- module 8 for diagnosing the state of the model of the wiring diagram and module 9 for diagnosing the state of the model of the circuit diagram;

- module 10 comparing models;

- module 11 adjustment schemes;

- module 12 for the issuance of results.

Modules 1 and 2 of the loading of wiring and circuit diagrams implement the loading mechanism of the circuits and provide a definition of the type and structure of input data. Each of the modules provides loading of the corresponding data types of the same name. Downloading schemas is the starting point for subsequent data processing. Also, the indicated modules 1 and 2 of the installation and circuit diagram downloads check the initial data for the correctness of the format.

Modules 3 and 4 of building models of wiring and circuit diagrams implement the following functions:

- extracting the information presented in the source data for subsequent processing;

- automatic determination of all images of elements, their properties, the structure of relationships between elements of the circuit diagram, circuit structure, as well as information about them;

- implementation of the algorithm for the formation of computer models based on the data obtained;

- implementation of the interface for displaying the results of building a computer model.

Modules 3 and 4 of building models of wiring diagrams and circuit diagrams on all loaded sheets of the project create nodes formed by links, points and transitions: electrical nodes, intra-page transitions, inter-page transitions, power poles. Each of the transitions is defined separately as independent components of the node.

Next, modules 3 and 4 of building models of wiring and circuit diagrams group nodes where the same and equivalent nodes (links, transitions, power) are combined into one or more nodes depending on their informational purpose and logic.

As a result of the work of modules 3 and 4 of building models of wiring and circuit diagrams, an unambiguous determination of all elements and positional filling of the sheet area occurs, and a logical description of all elements of the device is recognized and recorded. At the time of determining all the parameters of the parts of the circuit device, information is also identified by which this element can be found on the page, and all elements can be combined.

In FIG. 1 also shows a block 5 for saving constructed models of wiring and circuit diagrams, respectively, in modules 3 and 4 of building models of wiring and circuit diagrams.

Modules 6 and 7 of building model and circuit diagram construction view provide information on installation, the number of circuit elements and nodes, provide a separate view of information on each of the nodes and elements, display of all available conclusions of a particular element, placement of elements, for example, in a relay room, display shelves, places of each shelf and devices placed on them.

Modules 8 and 9 for diagnosing the state of models check all the conditions for drawing up schematic and wiring diagrams, namely, the presence of errors that could occur during the formation and grouping of nodes, and compare the information from the source data with the results of the combination. The operation of modules 8 and 9 includes the following types of checks:

- integrity control of devices and / or elements (for example, for a relay - the presence of a winding, the presence of contacts);

- monitoring the availability of power supplies;

- checking the conformity of the ratings and other attributes of the devices to their brand;

- checking the correctness of the device address;

- control of the absence of re-naming of different devices;

- control of the absence of reuse of the relay windings;

- control of the absence of non-existent terminals;

- check the availability of all power buses;

- check for the presence of all terminal panels;

- control of the absence of elements with the same mounting address;

- verification of mounting addresses of all elements included in the device;

- Check for busy contact address of the device.

Modules 8 and 9 for diagnosing the state of the models check and detect circuit errors and inconsistencies in the preparation of wiring cards, which includes checking for the correct placement of devices, for example, the number and name of devices and individual parts (for example, fuses, capacitors, resistors, diodes, etc. ), their absence in the scheme, their inconsistency with the purpose and size of the cabinet or occupation by devices of other places.

The module 10 comparing models evaluates the input data, recognizes and reads information along each element of the table provided by the software modules for constructing models of circuit diagrams and circuit diagrams, in order to implement verification of compliance of a set of circuit diagrams with a set of circuit diagrams.

Module 11 adjusting circuits associated with the module comparing models 10 and made with the possibility of logical analysis to automatically make corrections to the circuit.

The module 12 for the issuance of results generates a comparison report in the form of pie charts, respectively, for circuit and wiring diagrams with the ability to view detailed information for each device, output and installation, and also provides adjusted circuits.

The diagram of the components of computer models formed by modules 6 and 7 of the view for constructing models of wiring and circuit diagrams is shown in FIG. 2.

Each model includes the following components: Workspace 13, Pageworkspace 14, Pageelement 15, Devicepart 16, Pin 17, Device 18, Node 19, AbstractGate 20, GateCrossPage 21, GateEmpty 22 GatePower 23 and Wiringroom 24. For convenience, FIG. 2 also contains concepts components in Russian.

The Workspace 13 component (space, project model) is a working spatial component containing a project model. This component contains the current set of variables that allows you to implement and solve the tasks of creating a model. The model is a single file formed from a circuit diagram and a wiring diagram.

The Pageworkspace 14 component (project page) is a schematic sheet. The sheet can be either a separate project document or an integral part of the scheme. If the project contains large schemes, then it can consist of several sheets. For example, a complete set of wiring diagrams for a relay cabinet consists of the following pages of the project: equipment, lower terminal panels, rows of the bottom, non-plugged side shelves and sidewalls, rows of plug-in relays. For circuit diagrams, pages of power and control circuits, control and regulation circuits, electrical control circuits, alarm, measurement, functional power supply circuits, etc. can be created.

The Pageelement 15 component (page element) is a visual element of a chart sheet. Together, these elements represent all information fragments or parts of the device. The Pageelement 15 component contains a link to the place of the element on the chart sheet. An element of a circuit is its component, which cannot be divided into other parts that have an independent functional value: for a circuit, it is a relay, contact, resistor, capacitor, transformer, etc., for a wiring diagram, it is a contact group.

Component Devicepart 16 (part of the device) is an element of a logical description of the part of the device and its properties. The content of this link of the examination implementation algorithm is a group of qualitative and characteristic properties of a particular element. His particular task is to determine all the properties of the element, the fidelity and accuracy of the created model, which directly depends on the correctness of the assessment of the source data. So, for elements of circuit diagrams, it is necessary to determine the name, brand of the device, type of device, type of control, ordinate, purpose, etc. For contact groups of wiring diagrams, it is necessary to determine the number of the row and the place in the row. For each specific component of Pageelement 15 any of the schemes, the set of properties is individual.

Component Pin 17 (point, terminal of the device) - these are special points (or conclusions) that are part of the electrical unit, determining the connection point of several components of Pageelement 15 or representing the points of attachment (connection) of elements in specially defined places.

Elements of the circuit diagram, for which the property of the Pin 17 component is determined, for the exact and effective implementation of the model creation process can be:

- connecting wire;

- connecting point;

- relay;

- an indicator (for example, a light bulb, fire, direction arrow, photosensor, bridge, bell);

- two-terminal devices (for example, a resistor, a capacitor, a spark gap, a fuse, a diode, a zener diode, a low-voltage circuit breaker, a measuring panel terminal, a diode bridge, a varistor, an ammeter, a circuit breaker, a temperature sensor, a protective block, an electric motor, a transistor, an electric drive contact);

- a connector (for example, mounting transition, wire, terminal, terminal connection, temple, grounding, socket, three-pin connection, terminal block, power supply, switch handle, contact switching device);

- a transformer (e.g. core, jumper, winding, leads), etc.

The component Device 18 (device) is a component that describes the entire device (for example, a relay, including its windings and a group of contacts). The component Device 18 acts as a ratio of parts, locations, a description of the logical internal structure of an object, its parts and their relationships. Within the model, the Device 18 component includes one or more Devicepart 16 components and is associated with Pageelement 15 and Pin 17 components.

Component Node 19 (electrical node) is a node that represents the conclusions of the elements - components of Pin 17 connected together and having the same electrical potential. The electrical assembly includes two or more components of Pin 17. Various types of transitions (interstitial, intrastitial, power poles) also conditionally combine circuits into one node.

The AbstractGate 20 component (gateway) is a gateway designed to describe transitions within a circuit. The following transitions are possible in wiring and circuit diagrams, in particular, in electrical circuits: - GateCrossPage 21 component (interstage transition) - gateway. A link that serves to connect broken lines of circuits located on different sheets and representing a transition to another sheet of the document;

- component GateEmpty 22 (intra-page transition) - gateway. Link, which serves to go to fragments of schemes located within the same sheet;

- GatePower 23 component (power gate) - gateway. Link to the power pole.

The WiringRoom 24 component (relay room) represents the abstract arrangement of the device in the relay room. The relay room is the location of the alarm, centralization and blocking equipment (abbreviated as “signaling”). Structures of the following purpose are located in the relay room: power constructs, relay constructs, relay-cross constructs.

In the relay room, special constructs are installed - relay racks on which the relay equipment is mounted. The racks are installed in rows, as a rule - five in a row, and for convenience they can be numbered, for example, with a two-digit number, where the first digit denotes the row of racks and the second - the position of the racks in a row (for example, the rack with number 32 means the second racks in the third row )

In FIG. 3 presents a General algorithm for constructing a model of a circuit using the claimed device that describes the main actions of the modeling process. In the diagram, the dotted line indicates the actions with the circuit diagram, and the solid line with the wiring diagram.

The algorithm provides a set of predefined procedures, in a particular case - twelve predefined procedures, and a set of parallel procedures to it, in a particular case - two parallel procedures.

For convenience and a better understanding of the invention, FIG. 3 steps of the algorithm for constructing a circuit model using the claimed device are marked with numbered blocks.

The construction of a computer model of the circuit begins with the block 25 loading the source data, on the basis of which the model will be created. As the source data are used:

- wiring and circuit diagrams in a specific format, for example, the industry format for technical documentation of signaling, centralization and blocking (abbreviated as “ОF-ТД СЦБ format”), from an automated workstation for recognizing technical documentation (abbreviated as “ARM-RTD”);

- assembly and circuit diagrams in the format OF-TD signaling system from an automated workstation for maintaining technical documentation (abbreviated as “ARM-VTD”).

The composition of the input data, classified by type of scheme, includes:

- wiring diagrams (lower terminal panels, rows of the bottom, non-plug-in side shelves and sides, rows of plug-in relays, etc.);

- circuit diagrams, which, in turn, may include circuit diagrams of power supply, control, signaling, control and regulation, etc., which, in particular, form the main types of technical documentation for railway automation and telemechanics and are included in the main a set of working drawings of automation systems and telemechanics of various objects, including in the working documentation of technical support. The structure of electrical circuits includes:

- electrical control, signaling, measurement, regulation circuits;

- contacts of circuit devices;

- inscriptions, notes, technical requirements;

- the name indicating its specific function in the product and the nature of the processes occurring in it;

- elements.

Next, carry out the step of loading the wiring diagram and circuit diagram of block 25 into memory, which is the starting point for subsequent data processing. It also checks the source data for the correctness of the format.

Then, in block 26, create the Workspace (the working spatial component containing the project model), necessary for data management, and activate the loading of the schematic sheet in the workspace, which is the layout or area for the location / filling of the visual Pageelement components (page elements). The number of automatically loaded pages after adding is not regulated and characterizes the volume and size of the schemes used as input data. The loadable pages of the schematic and wiring diagrams regarding the workspace in block 26 are plural to one. Block 26 contains the current set of variables that allows us to implement and solve the problems of creating a model. The system model is a single file and is obtained from:

- concept;

- wiring diagram.

Page / workspace is a chart sheet. The sheet can be either a separate project document or an integral part of the scheme. If the project contains large schemes, then it can consist of several sheets. For example, a complete set of wiring diagrams for a relay cabinet consists of the following pages of the project: equipment, lower terminal panels, rows of the bottom, non-plugged side shelves and sidewalls, rows of plug-in relays. For circuit diagrams, the pages may include power and control circuits, control and regulation circuits, electrical control circuits, signaling, measurement, functional power supply circuits, etc.

Next, the process is conducted in parallel for circuit diagrams with blocks 27 ÷ 34 (connections are shown with a dashed line), for wiring diagrams with blocks - 36 ÷ 43 (connections are shown with a solid line). The output of block 26 is connected to the inputs, respectively, of block 27 (pin allocation) and block 34 (creation of pageelement).

Pageelement is a visual element of a chart sheet. Together, these components are all information fragments or parts of the device. Pageelement contains a link to the place of the element on the chart sheet. An element of a circuit is called its component, which cannot be divided into other parts that have an independent functional value (for a circuit diagram, it can be a relay, contact, resistor, capacitor, transformer, etc .; for a wiring diagram, contact groups).

Block 27 (pin allocation), carries out the allocation of special points (pins) that are part of the electrical node, determining the junction of several pageelement, or schematically representing the points of attachment (connection) of elements in specially defined places. Therefore, the output of block 36 (creating a pageelement) is connected to the input of the decision block “Are there links in the circuit?” And to the input of block 27 (pin allocation).

If there are no links in the circuit, then one output “no” of the decision block “Are there links in the circuit?” Is connected to the output of block 27 for circuit diagrams, and another output “no” of the decision block “Is there a link in the circuit?” Connected to the output block 40 (pin allocation) for wiring diagrams.

If there are links in the circuit, then the output “yes” of the decision block “Are there links in the circuit?” Is connected to the input of block 44 (definition of absractgate type)

- a gateway designed to describe the transitions inside the circuit to the input of block 45 (creating a gate, or creating a gateway) for communication with blocks of the circuit and wiring diagrams.

The output of the indicated block 45 is connected to the inputs of the blocks 29 and 42 (node association), respectively, for circuit and wiring diagrams.

Node is a node. The node is the findings of the elements (pin) connected together having the same electrical potential. The electrical assembly includes two or more pin.

As can be seen from FIG. 3, blocks 27 ÷ 34 for circuit diagrams and blocks 36 ÷ 43 for circuit diagrams perform the same operations, but in reverse order. For example, block 27 (pin allocation) for circuit diagrams corresponds to block 40 (pin allocation) for wiring diagrams.

The list of circuit elements for which the pin property is defined for an accurate and efficient implementation of the model creation process includes:

- connecting wire;

- connecting point;

- relay;

- indicator (light bulb, fire, direction arrow, photosensor, bridge, bell); two-poles (resistor, capacitor, arrester, fuse, diode, zener diode, low-voltage automatic current switch, measuring panel terminal, diode bridge, varistor, ammeter, circuit breaker, thermal sensor, protective block, electric motor, transistor, electric drive contact);

- connector (mounting transition, wire, terminal., terminal connection, handle, grounding, socket, three-pin connection, output unit, power supply, switch handle, contact switching device);

- transformer (core, jumper, winding, leads), etc.

Blocks 31 and 36 (creation of pageelement) represent the step of creating a visual element of a chart sheet. Together, Pageelement components are all information fragments or parts of a device. Each Pageelement component contains a link to the place of the element on the chart sheet.

Blocks 32 and 37 (defining devicepart) correspond to the step of defining the Devicepart component, which is a logical description of a part of a device and its properties.

The content of this step of the algorithm is a group of high-quality properties and attributes characteristic of a particular element. The successful solution of the problem of determining all the properties of an element, the fidelity and accuracy of the created model directly depends on the correctness of the assessment of the source data. For elements of the circuit diagrams, the name, brand of the device, type of device, type of control, ordinate, purpose, etc. are determined. For contact groups of wiring diagrams, the row number is determined, the place in the row. For each specific Pageelement of any of the schemes, the set of properties is individual.

Blocks 28, 41 (node formation) correspond to the step of node formation. The node represents the conclusions of the elements (Pin) connected together, having the same electrical potential. The electrical assembly includes two or more Pin. Various types of transitions (interstitial, intrastitial, power poles) also conditionally unite the chains into one node.

In blocks 29, 42 (union node) grouping of nodes. At this stage, homonymous and equivalent nodes (links, transitions, power) are combined into one or more nodes depending on their informational purpose and logic.

Blocks 30, 43 (node analysis) represent the step of checking the node for correctness. At this stage of the algorithm, the presence of errors that could occur during the formation and grouping of nodes is checked, the information of the source data is compared with the results of the union. Possible causes of errors are as follows:

- syntax error: there is a link to a nonexistent sheet or place on the diagram;

- open topology of the graph: for any kind of transitions, there is no backward link of one of the “recipients”, for example, sheet 1 → sheet 2; sheet 2 → no link;

- incorrect determination of the parameters of the node: the inter-leaf transition is defined as inter-leaf;

- improper placement of power poles in a node (for example, power poles - plus / minus P and M).

Blocks 33, 38 (uniting devicepart into device) are responsible for grouping all Devicepart (parametric descriptions of parts of devices) into Device (device).

Blocks 34, 39 (device analysis for correctness) perform the following types of checks:

- integrity control of the device (for example, for a relay it is the presence of a winding, the presence of contacts);

- the presence of power nodes;

- denominations and other attributes correspond to the brand;

- correct device address;

- lack of re-naming of different devices;

- lack of reuse of relay windings;

- lack of non-existent terminals;

- the presence of all power buses;

- the presence of all terminal panels;

- lack of elements with the same mounting address;

- checking the mounting addresses of all device part included in the Device;

- Check for busy contact address of the device.

The output of block 34 (analysis of device for correctness) for circuit diagrams and the output of block 43 (analysis of node for correctness) for wiring diagrams are connected to the inputs of block 35 (construction of an arrangement model). Block 35 is the final step (see WiringRoom above).

The implicit presentation of the nodes of the wiring diagrams makes the process of the algorithm for constructing a computer model, as shown in FIG. 3, asynchronous for different types of documents.

For circuit diagrams, nodes are formed and grouped at the first stages of model creation, after which filling with elements (Devicepart) and determination of their logical properties and relationships begin. Next, in block 33, the assembly in the Device is performed and it is checked for correctness by block 34. For wiring diagrams, the model construction procedure proceeds in the reverse order:

- creating Pageelement block 36;

- determination of Devicepart by block 37;

- Association of Devicepart in Device block 38;

- analysis of Device for correctness by block 39;

- Pin allocation by block 40;

- the formation of the Node block 41;

- Node grouping by block 42;

- Node analysis for correctness by block 43.

The claimed automated device can be structurally implemented using a computer (computing device), which provides the creation of a multilayer convolutional neural network for implementing the algorithm at the physical level and an acceptable calculation time. The calculator can be a single device with a housing in which there is a printed circuit board with an integrated and specialized processor, as well as a power supply.

The device may have a USB port or another type of port for exchanging data during the calculations. The device is connected to a computer workstation and is configured to receive files of electronic versions of wiring and circuit diagrams from a database.

Thus, the claimed device provides automation of the examination of technical documentation, improves the verification technology, significantly reduces the time and computational resources spent on checking large information volumes, significantly increases the accuracy of error detection and eliminates the likelihood of emergency situations.

Claims (10)

1. An automated device for examining installation and circuit diagrams, containing - a module for loading wiring diagrams and a module for loading circuit diagrams, configured to download diagrams in the form of images, determine the type and structure of input data, and verify the data for correct format; - a module for constructing a model of a wiring diagram and a module for constructing a model of a circuit diagram, respectively associated with modules for loading the wiring diagram and circuit diagrams and configured to automatically determine the images of circuit elements, their properties, the relationship, the structure of the circuits, as well as information about them, the subsequent formation of computer models schematic and wiring diagrams based on the data obtained and displaying the results of building computer models, while the modules for constructing models of wiring and fundamentally circuits are adapted to generate and grouping nodes formed bonds, circles and transitions that represent the electrical components and / or in-page transitions, and / or interstitials transitions and / or power poles; - a module for viewing a model of a wiring diagram and a module for viewing a model of a circuit diagram, respectively associated with modules for constructing models of a wiring diagram and circuit diagram and configured to provide information on installation, the number of circuit elements and nodes, separately view information for each of the nodes and elements, display all conclusions available for a particular element and element placement; - a module for diagnosing the state of the model of the wiring diagram and a module for diagnosing the state of the model of the circuit diagram, respectively associated with modules for viewing models of the wiring diagram and circuit diagrams and configured to detect errors if they occur during the formation and grouping of nodes in the modules for constructing models of the wiring diagram and circuit diagram; - a module for comparing models associated with modules for diagnosing the state of models of circuit and circuit diagrams and configured to evaluate input data and / or recognize and read information along each element and table provided by modules for constructing models of circuit and circuit diagrams, ensuring verification of compliance with the circuit diagram circuit schematic diagram; - a module for correcting circuits associated with a module for comparing models and made with the possibility of logical analysis to automatically make corrections to circuits; and - a module for issuing results associated with the module for correcting circuits and configured to generate a report on comparing circuit models with providing detailed information on each element and / or output and installation, and generating adjusted circuits. 2. The device according to claim 1, characterized in that the modules for diagnosing the state of the models of the wiring and circuit diagrams are configured to control the integrity of the element, and / or the presence of power supplies, and / or the ratings and attributes of the element, and / or the correctness of the addresses of the devices, and / or lack of re-name of different devices, and / or lack of reuse of relay windings, and / or absence of nonexistent terminals, and / or the presence of all power buses, and / or the presence of all terminal panels, and / or the absence of elements with the same type platemaking location and / or address of each mounting element and / or the employment of the contact element addresses. 3. The device according to claim 1, characterized in that it is made on the hardware platform of a computer that implements a multilayer convolutional neural network and algorithms for examination at the physical level.

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