RU2715524C1 - Method for automated generation of electronic information model of power plant and device for its implementation - Google Patents

Abstract

FIELD: automated systems.

SUBSTANCE: method and apparatus for generating an electronic information model, in which a structure and format, identifiers and permissible ranges of input data values are adjusted, electronic information model data identifiers, rules for converting input data into electronic information model data and permissible ranges of power plant electronic information model data values, which are used to read and recognize, control values and convert input data into electronic information model data and control data values of electronic information model. Formed electronic information model is recorded on data medium. In process of control, errors records are recorded and made.

EFFECT: technical result is wider range of means.

2 cl, 8 dwg

Description

The group of inventions relates to automated systems, namely, to methods and devices for the automated formation of electronic information models of power plants, and can be used to create a knowledge base of multidisciplinary analysis and optimization of power plants operating in a distributed environment for collective conceptual design of promising integrated aircraft layouts.

Known methods for the automated formation of electronic information models and devices for their implementation (US 7139766, 2006; US 7716257, 2011). The methods are characterized in that they read the input data in accordance with the structure and format of the input data and save the read input data, form a list of rules for converting input data, and then convert the recognized input data in accordance with the list of rules for converting input data. The devices comprise an input data reading unit, an input data storage unit, an input data conversion rule list forming unit, a data conversion unit and a data recording unit, the information input of the input data storage unit being connected to the output of the data reading unit, the first and second information inputs of the data conversion unit are associated respectively with the outputs of the input data storage unit and the input rule conversion list forming unit, and the information input of the data recording unit is connected with the output of the data conversion unit.

The closest analogue to the claimed group of inventions is an automated system for the exchange of information (RU 48233, 2005). From the specified source of information, a method for the automated formation of an electronic information model and a device for implementing the method are known. The method is characterized in that they form a list of input data identifiers; reading the input data in accordance with the structure and format of the input data and storing the read input data; recognize the values of the stored input data in accordance with the list of identifiers of the input data; control the admissibility of the values of recognized input data; in case of an error in the process of monitoring recognized input data, an error is recorded and an error is recorded on the information carrier. A device that implements the method includes an input data reader, an input data storage unit, an input data control unit, an input data identifier list forming unit, an input data recognition unit and a data recording unit, the information input of the input data reading unit being an information input of the device, information the input of the input data storage unit is connected to the output of the input data reader.

Common disadvantages of the known technical solutions are low productivity and inaccuracy of the obtained data for the automated formation of the electronic information model of the power plant, due to the lack of the ability to control the validity of the data values of the electronic information model of the power plant after converting the input data.

The technical problem to be solved by the claimed group of inventions is the lack of technical means to generate data of electronic information models of power plants and to control the validity of data values in an automated mode.

The technical result achieved by the implementation of this group of inventions is to reduce time costs and increase the reliability of data in the formation of an electronic information model of a power plant.

The technical result provided by the claimed group of inventions in terms of the method is achieved by the fact that in the method for the automated formation of an electronic information model of a power plant, a list of input data identifiers is generated to form an electronic information model; reading the input data in accordance with the structure and format of the input data and storing the read input data; recognize the values of the stored input data in accordance with the list of identifiers of the input data; control the admissibility of the values of recognized input data; in case of an error in the process of monitoring recognized input data, an error is recorded and an error is recorded on the information carrier; pre-configure the structure and format of the input data, form a list of valid ranges of input data values, a list of data identifiers of the electronic information model of the power plant, a list of rules for converting input data to electronic information model data and a list of acceptable ranges of data values of the electronic information model of the power plant, and when control of the validity of the values of recognized input data determine their compliance with the list of valid ranges input data values; if there is no error in the process of monitoring the recognized input data, the recognized input data is converted to the data of the electronic information model of the power plant in accordance with the list of input data conversion rules and the list of data identifiers of the electronic information model; additionally control the admissibility of the values of the converted data of the electronic information model of the power plant, in which they determine their compliance with the list of acceptable ranges of data values of the electronic information model of the power plant; if an error occurs during the control of the converted data of the electronic information model of the power plant, the error is recorded and an error is recorded on the information carrier; if there is no error in the process of monitoring the converted data, an electronic information model of the power plant is formed and the model is recorded on the information carrier.

The technical result provided by the claimed group of inventions in terms of the device is achieved by the fact that the device for the automated formation of the electronic information model of the power plant contains an input data reader, an input data storage unit, an input data control unit, a list of input data identifiers, an input recognition unit data and a data recording unit, the first information input of the input data reading unit being the information input of the device, and the formation input of the input data storage unit is connected with the output of the input data reading unit, the device further comprises a unit for converting input data to data of the electronic information model of the power plant, a data control unit of the electronic information model of the power plant, a unit for setting the structure and format of the input data, a unit for generating a list of ranges permissible values of input data, a block for generating a list of rules for converting input data, a block for generating a list of identifiers is given electronic information model of the power plant, the unit for generating a list of ranges of permissible data values of the electronic information model of the power plant, and the information input of the input data recognition unit is connected to the output of the input data storage unit, the information input of the input data control unit is connected to the output of the input data recognition unit, information the input of the input data conversion unit is connected to the output of the input data control unit, the information input of the electronic data control unit the electronic information model of the power plant is connected to the output of the input data conversion unit, the information input of the data recording unit is connected to the output of the data control unit of the electronic information model of the power plant, and the information outputs of the configuration unit of the structure and format of the input data, the unit for generating the list of input data identifiers, the unit for generating a list of ranges of permissible values of input data, a block for generating a list of rules for converting input data, and a block for forming a list ranges of permissible data values of the electronic information model of the power plant are respectively associated with the second inputs of the input data reader, input data recognition unit, input data control unit, input data conversion unit and data control unit of the power plant electronic information model, and the information output of the identifier list generation unit data of the electronic information model of the power plant is connected to the third input of the input data conversion unit nnye electronic information model of the power plant.

These essential features provide a solution to the problem with the achievement of the claimed technical result, since only the set of essential features that make up the invention in terms of the method and device for its implementation, provides the ability to read the input data to form an electronic information model of the power plant with an arbitrary structure and format, and also automatically control the validity of data values as before converting the input data to data of the electronic information model, and after their conversion, which allows to reduce time costs and increase the reliability of the data in the formation of the electronic information model of the power plant.

The present group of inventions is illustrated by the following detailed description of a method for automatically generating an electronic information model of a power plant and device for its implementation with reference to the illustration, where

in FIG. 1 shows a diagram of a device for the automated formation of an electronic information model of a power plant;

in FIG. 2 is a fragment of a description of the structure and format of the input data;

in FIG. 3 is a fragment of a list of input identifiers;

in FIG. 4 is a fragment of a list of valid input data value ranges;

in FIG. 5 is a fragment of a list of data identifiers of an electronic information model of a power plant;

in FIG. 6 is a fragment of a list of rules for converting input data into data of an electronic information model of a power plant;

in FIG. 7 is a fragment of a list of acceptable ranges of data values of an electronic information model of a power plant;

in FIG. 8 presents fragments of the generated electronic information model.

A device for the automated formation of an electronic information model of a power plant (Fig. 1) contains an input data reading unit 1, an input data storage unit 2, an input data recognition unit 3, an input data control unit 4, a unit 5 for converting input data into data of an electronic power information model installation, data control unit 6 of the electronic information model of the power plant, data recording unit 7, unit 8 for setting the structure and format of input data, unit 9 for forming an identifier list input data, block 10 forming a list of ranges of acceptable values of input data, block 11 of forming a list of rules for converting input data, block 12 of forming a list of ranges of acceptable values of data of an electronic information model of a power plant and block 13 of forming a list of identifiers of data of an electronic information model of a power plant. The first information input of the input data reading unit 1 is the information input of the device. The information input of the input data storage unit 2 is connected to the output of the input data reading unit 1. The information input of the input data recognition unit 3 is connected to the output of the input data storage unit 2. The information input of the input data control unit 4 is connected to the output of the input data recognition unit 3. The information input of the input data conversion unit 5 is connected to the output of the input data control unit 4. The information input of the data control unit 6 of the electronic information model of the power plant is connected to the output of the input data conversion unit 5. The information output of the data control unit 6 of the electronic information model of the power plant is connected to the input of the data record unit 7.

Information outputs of block 8 for adjusting the structure and format of input data, block 9 for forming a list of input identifiers, block 10 for forming a list of ranges of acceptable values of input data, block 11 for forming a list of rules for converting input data and block 12 for forming a list of ranges of acceptable values for data of a power plant information model connected respectively with the second inputs of the input data reading unit 1, the input data recognition unit 3, the input data control unit 4, unit 5 reobrazovaniya input unit 6 and control data electronic information model. The information output of block 13 of the formation of the list of data identifiers of the electronic information model of the power plant is connected with the third input of the block 5 of the conversion of input data into data of the electronic information model of the power plant.

Blocks 1, 2, 3, 4, 5, 6, 7 of reading the input data, storing the input data, recognizing the input data, controlling the input data, converting the input data into the data of the electronic information model of the power plant, monitoring the data of the electronic information model of the power plant and recording data can be implemented by means of components of a personal computer known from the prior art, such as a processor, hard disk, disk drive, RAM. In this case, the input data reading unit 1 can be configured to connect to one or more external input data sources 14, for example, via a local area network, and the data recording unit 7 can be connected to an external storage medium 15 for recording an electronic information model of a power plant.

Blocks 8, 9, 10, 11, 12, 13 of setting the structure and format of the input data, forming a list of input data identifiers, forming a list of ranges of acceptable values of input data, forming a list of rules for converting input data, forming a list of ranges of acceptable values of data of an electronic power information model installations and the formation of a list of data identifiers of the electronic information model of the power plant can be information carriers or sections of the information carrier, provided nnogo user interface for manual input of information or be connected to external information (not shown in the figure) sources.

The method of automated formation of an electronic information model of a power plant is implemented as follows.

Before starting work, the structure and format of the input data are preliminarily set up and a list of input data identifiers for generating an electronic information model is formed, a list of acceptable ranges of input data values, a list of rules for converting input data into electronic information model data, a list of data identifiers of a power plant electronic information model, and a list permissible ranges of data values of the electronic information model of the power plant. Setup and generation can be carried out by manually entering the relevant information using the user interface or receiving it from an external source.

In FIG. Figure 2 shows a fragment of the description of the structure and format of input data in the form of a list with elements of the form

n_values_n * (format_n_values_n), where

n_values_n - amount of data with the same format;

format_n_values_n - identifier of the data format.

As the input data format, for example, a formatless data input, an integer or a floating-point number with a certain number of digits after the decimal point can be specified.

In FIG. Figure 3 shows a fragment of the list of input identifiers in the form of 3 columns, where the identifier of the input data is given in the 1st column, the unit of measurement of this quantity in the 2nd column, and the description of this input value in the 3rd column.

In FIG. Figure 4 shows a fragment of the list of acceptable input data value ranges in the form of 4 columns, where the identifier of the input data is given in the 1st column, the unit of measurement in the 2nd column, and the minimum and maximum in the 3rd and 4th columns, respectively value of the range of input data.

In FIG. 5 is a fragment of the list of data identifiers of the electronic information model of the power plant with a structure similar to the structure of the list of input identifiers.

In FIG. Figure 6 shows a fragment of the list of rules for converting input data into data of the electronic information model of the power plant in the form of 3 columns, where the serial number of the rule is given in the first column, the identifier of the data of the power plant electronic information model in the 2nd column, and in 3 -th column - transformation rule in the form of a basic formula for obtaining data of an electronic information model based on input data.

In FIG. 7 is a fragment of a list of allowable ranges of data values of an electronic information model of a power plant with a structure similar to that of a list of allowable ranges of values of input data.

After entering the identifiers of the input data, the rules for converting the input data into the data of the electronic information model and the identifiers of the data of the electronic information model of the power plant, they can be compared with each other in order to verify the sufficiency of the identifiers of the input data to generate data of the electronic information model of the power plant.

The data reading unit 1 reads the structure and format of the input data from the corresponding tuner 8 and reads the input data in accordance with the structure and format of the input data.

Further, the reading unit 1 transmits the read input data to the storage unit 2, which stores the input data.

The input data recognition unit 3 reads the list of input data identifiers from the corresponding generating unit 9 and the input data from the input data storage unit 2 and recognizes the stored input data in accordance with the input data identifier list read from the generating unit 9, and after recognition transmits the recognized input data in block 4 control input data.

The input data control unit 4 reads the list of allowable ranges of input data values from the corresponding block 10 of the formation and monitors the admissibility of the values of recognized input data, and their compliance with the list of allowable ranges of input data values is determined. In the event of an error in the process of checking the admissibility of the values of the recognized input data, the input data control unit 4 fixes the error and records the error on the storage medium, and further operation of the device stops. If there is no error in the process of checking the admissibility of the values of the recognized input data, the input data control unit 4 transmits the verified input data, including the values and corresponding identifiers of the input data, to the input data conversion unit 5.

Block 5 converting input data reads the list of rules for converting input data to data of the electronic information model of the power plant from block 11 for generating the rules for converting input data and a list of data identifiers for electronic information model of the power plant from block 13 for generating a list of data identifiers for electronic information model of the power plant and converts input data received from block 4 control input data into electronic information m Delhi power plant, in particular by the formula given in the third column of the list of input data conversion rules (FIG. 6). Then, the obtained data of the electronic information model of the power plant, including the values and the corresponding identifiers of the data of the electronic information model, are transmitted to the data control unit 6 of the electronic information model.

The electronic information model data control unit 6 reads from the corresponding formation unit 12 a list of permissible data values of the power plant electronic information model and monitors the permissibility obtained from the power unit electronic information model data conversion unit 5 in accordance with the list of acceptable ranges of electronic information model data values . In the event of an error in the process of checking the admissibility of the converted data of the electronic information model of the power plant, the data control unit 6 of the electronic information model fixes the error and writes it to the storage medium, and further operation of the device stops.

The information medium on which errors are recorded in the process of data control may be an external information medium 15 or another medium (not shown in the figure).

If there is no error in the control of the converted data, the electronic information model data control unit 6 transmits the electronic information model data to the data recording unit 7, which generates an electronic information model of the power plant and records the model on an external storage medium 15, for example, in xml format.

In FIG. Figure 8 shows a fragment of the generated electronic information model in xml format that contains the data values of the electronic information model of the power plant in the "performanceMap" section, grouped in accordance with the data identifiers of the electronic information model of the power plant "thrust", "eiNOx", etc. In addition, the electronic information model may contain the general parameters of the power plant in the section "General engine parameters" and the requirements for the levels of thrust of the power plant in the section "enginePowerRequirements". The data values of the electronic information model of the power plant can be scalar or vector.

A method for the automated formation of an electronic information model of a power plant can also be implemented using a program recorded on a computer-readable storage medium and containing instructions in which the computing device implements the claimed method.

The above actions for reading, recognizing, controlling and converting input data into electronic information model data, as well as monitoring and recording electronic information model data can be carried out in an automated mode, thereby reducing time costs and increasing the reliability of data in the formation of an electronic information model.

Claims (12)

1. The method of automated formation of an electronic information model of a power plant, which consists in the fact that: form a list of input data identifiers for the formation of an electronic information model; reading the input data in accordance with the structure and format of the input data and storing the read input data; recognize the values of the stored input data in accordance with the list of identifiers of the input data; control the admissibility of the values of recognized input data; in the event of an error in the process of monitoring recognized input data, an error is recorded and an error record is made on the information carrier, characterized in that: pre-configure the structure and format of the input data, form a list of valid ranges of input data values, a list of data identifiers of the electronic information model of the power plant, a list of rules for converting input data to electronic information model data and a list of acceptable ranges of data values of the electronic information model of the power plant control of the validity of the values of recognized input data determine their compliance with the list of valid ranges input data values; if there is no error in the process of monitoring the recognized input data, the recognized input data is converted to the data of the electronic information model of the power plant in accordance with the list of input data conversion rules and the list of data identifiers of the electronic information model; additionally control the admissibility of the values of the converted data of the electronic information model of the power plant, in which they determine their compliance with the list of acceptable ranges of data values of the electronic information model of the power plant; if an error occurs during the control of the converted data of the electronic information model of the power plant, the error is recorded and an error is recorded on the information carrier; if there is no error in the process of monitoring the converted data, an electronic information model of the power plant is formed and the model is recorded on the information carrier. 2. A device for automatically generating an electronic information model of a power plant, comprising an input data reader, an input data storage unit, an input data control unit, an input data identifier list generation unit, an input data recognition unit and a data recording unit, the first information input of a read unit input data is the information input of the device, the information input of the input data storage unit is connected with the output of the input data reader, I distinguish which further comprises a unit for converting input data into data of an electronic information model of a power plant, a unit for monitoring data of an electronic information model of a power plant, a unit for setting the structure and format of input data, a unit for generating a list of ranges of permissible values of input data, a unit for generating a list of rules for converting input data, block forming a list of data identifiers of the electronic information model of the power plant, block forming a list of ranges for permissible data values of the electronic information model of the power plant, and the information input of the input data recognition unit is connected to the output of the input data storage unit, the information input of the input data control unit is connected to the output of the input data recognition unit, the information input of the input data conversion unit is connected to the output of the input control unit data, the information input of the data control unit of the electronic information model of the power plant is connected to the output of the input x data, the information input of the data recording unit is connected to the output of the data control unit of the electronic information model of the power plant, and the information outputs of the setting unit for the structure and format of the input data, the unit for generating the list of input data identifiers, the unit for forming the list of ranges of acceptable values of input data, the unit for forming the list rules for converting input data and a block for forming a list of ranges of permissible data values of an electronic information model of a power plant associated with the second inputs of the input data reader, the input recognition unit, the input data control unit, the input data conversion unit and the data control unit of the power plant electronic information model, and the information output of the power plant electronic information model list of data identifiers is associated with the third the input of the unit for converting input data into data of the electronic information model of the power plant.

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