RU2676405C2 - Method for automated design of production and operation of applied software and system for implementation thereof - Google Patents

Abstract

FIELD: software.SUBSTANCE: invention relates to a method and system for the automated design, production and operation of application software. In the method, the arrays of the initial data of the database are processed and implement their program-oriented transformation into the executable module of the applied software, at the same time, in the beginning they form a complex of the model of representation of knowledge about the subject area of the monitoring and control object, on the basis of a complex model of knowledge representation, the formation of a poly-model complex of the monitoring and control object model in the form of a set of data processing models and data structures, models of graphic display of elements and processes, logical models of elements and processes of the object of monitoring and control, then these models are verified and recorded in the knowledge base, then in the course of operation, based on the values of the analysis goal parameters, a model is selected and automatic program-oriented transformation of the selected source model of the monitoring and control object into the executable module of the applied software.EFFECT: technical result is the automation of software development.7 cl, 8 dwg

Description

The invention relates to computer-aided design, production and operation of applied software, including for automated process control systems and can be used for automated monitoring and control systems of complex organizational technical systems using decision support systems, as well as for production and operation application software for any purpose.

The well-known "Method of computer-aided design of the contact network", based on the use of a special data structure, separated by a functional principle, with the organization of data exchange between all data banks, as well as between data banks and the designer. Moreover, the control of intermediate options for the project is carried out under the control of at least one software module (RF Patent No. 2172978, M. cl G06F 17/50, publ. 08.27.2001).

The disadvantage of this method is its orientation to a greater extent on the calculation of parameters and characteristics, as well as its narrow specialization and the possibility of application only for the automated design of the contact network.

The well-known "Method of production and maintenance of an individual software product - esc-m technology" based on the functional orientation of the workplace of programmers (RF Patent No. 2195016, M.cl G06F 17/50, publ. 12/20/2002). This method includes inputting input data, individualizing the source data array, supplementing the source data array with constant and typical data from server data banks, program-oriented conversion of the source data array to the product data array, testing the product, sending the electronic version of the product to an external global network subscriber, and updating permanent and standard data, and each action is performed on a separate functionally specialized automated work location and is accompanied by a sequential input into the server banks of the current data of the attributes of the initial and final states of actions with the function of the corresponding sequence of actions for accessing a separate functionally specialized automated workstation to the product data array, and product testing is carried out by programmatically identifying the applicability signal of constant, standard and atypical data up to and after the update, while as access signals to the data array about The products use the input of attributes of the initial and final states of actions and the identity of the signal of applicability.

The disadvantages of this method are the orientation mainly on banking systems and unavoidable design errors, as well as the increased development time of application software, caused by the problem of understanding inherent in the technological sequence of interactions of the customer - a specialist in the subject area, a system analyst who sets the task for the programmer, and the programmer who develops application software. Therefore, after each development iteration, the technical specifications for the development of application software are refined, the tasks are refined by the system analyst, and so on. This approach leads to an increase in programming time and multiple inaccuracies.

The closest known technical solution is the “Automatic Programming Method and Automatic Programming Device” designed to develop programs for numerically controlled machines, based on storing the initial data of three-dimensional models of a part and a workpiece in a database, combining on a monitor screen a three-dimensional product model with three-dimensional model of the workpiece and the implementation of the settings in which the automatic development of the executable module of the applied software software for processing parts (RF Patent No. 2311672, M. cl G05B 19/4093, B23Q 15/00, publ. 11/27/2007).

The disadvantages of the known method of the prototype are the ability to produce application software only for processing three-dimensional objects, the long development time of application software and the inability to modify the program during operation.

A known system for the implementation of computer-aided design and production of application software described in "Method for the production and maintenance of an individual software product - esc-m technology" based on the functional orientation of the workplace of programmers (RF Patent No. 2195016, M. cl G06F 17/50, publ. 12/20/2002). The system contains automated workstations (AWS) functionally specified for the production engineer, production analyst, specifier and software developers, as well as a group of server data banks, a system for monitoring phases of the technological cycle, a system for sharing and installing data, and a system for distributing software replenishment that are connected with each other using a local area network, to which a global Internet access system is also connected.

The disadvantages of the known device (system) are the orientation mainly on banking systems and on the refinement of the already known, previously developed software. Also a disadvantage is the inevitable design errors and the extended development time of application software, caused by the problem of mutual understanding inherent in the technological sequence of interactions between the customer - a specialist in the domain, the production engineer, the analyst - the specifier, who sets the task for the programmer, and the programmer who develops the actual application software. Therefore, after each development iteration, the technical specifications for the development of application software are refined, the tasks are refined by the system analyst, and so on. This approach leads to an increase in programming time and multiple inaccuracies.

A device is known as a prototype (RF Patent No. 2311672, M. cl G05B 19/4093, B23Q 15/00, publ. 11/27/2007) containing input, output and display devices, together constituting an automated workstation, tools (processors) for editing data and databases indirectly related to each other. This system is designed to develop programs for numerically controlled machines, based on storing the initial data of three-dimensional models of a part and a workpiece in databases, combining on a monitor screen a three-dimensional model of a product with a three-dimensional model of a workpiece, and setting up the results of which automatically develop an executable application module part processing software.

The disadvantages of the known system of the prototype are the ability to produce application software only for a pre-created product and procurement model, processing models of typical (three-dimensional) product and procurement models, long development periods of the initial product and procurement models, and as a result, application software, and the impossibility of modification programs in operation.

The reason that impedes the receipt of the technical result indicated below is the need to create a model of the part in advance using the CAD system, which leads to long development of application software for monitoring and managing complex organizational technical systems, especially if there are decision support systems in them composition. Since the model of an object during its creation and during management and monitoring can differ significantly from each other, the participation of specialists from different subject areas is required: design and technological, monitoring and management. In addition, model development tools and application software generation tools are in different environments and their combination within the same environment is not possible, which impedes the operational modification of application software, using only three-dimensional models of the object.

The task to be solved by the claimed method and system for its implementation is the creation of highly efficient, universal, independent of the subject area, relatively fast and reliable means of computer-aided design, production and operation of application software, directly by specialists of the subject area in the process of creating or designing systems monitoring and control, with the possibility of operational modification of software in the process of its ek pluatatsii.

The technical result of the invention is to reduce the development and creation of application software, operational correction of application software during its operation, the ability to simulate the state of controlled objects by assigning values to measured and calculated parameters, the ability to create application software for any subject area.

The specified technical result is achieved by the fact that in the known method they process the arrays of source data that are stored in the database and carry out program-oriented conversion of the array of source data into an executable module of the application software.

According to this invention, at the beginning, a complex of a model for representing knowledge about a subject area of a monitoring and control object is formed, then, based on a complex of a model for representing knowledge, a model of a monitoring and control object is produced in the form of a polymodel complex — data processing models and data structures, graphic display models of elements and processes, logical models of elements and processes of the monitoring and control object, then these models of the polymodel complex are verified and recorded in the knowledge base, etc. during the operation carried out on the basis of the values of the parameters of the analysis purposes, extracting Multiple-complex models of knowledge, then auto program - oriented transformation of the selected models Multiple-complex monitoring and control facility in the executable application software modules.

The specified technical result in the particular case is ensured by the fact that the application software processes the measurement data, assesses the condition and the formation of decision-making alternatives.

The specified technical result in the particular case is ensured by the fact that the application software is modernized by making changes to the polymodel complex of the model of the monitoring and control object.

The specified technical result in the particular case is ensured by the fact that the application software during operation models the state of the control object by assigning values to the measured and calculated values of the state monitoring parameters.

In the system for implementing the method, the indicated technical result is ensured by the fact that the computer-aided design, production and operation of the application software contains a user workstation connected indirectly to the data editor block, which is also indirectly connected to the database.

At the same time, the system for introducing the knowledge, the knowledge editor block, the knowledge base, the project manager, the model verifier, the compiler / linker and the executive system are additionally introduced into the system for implementing the method, while the data editor block is connected indirectly through the project manager to the block of presentation models knowledge and also indirectly through the project manager with the knowledge editor block, which is connected to the knowledge base, while the knowledge base is connected to the project manager, which is connected in parallel with the editor database rum, with a knowledge base editor, with a workstation and with a model verifier, which, on the other hand, is connected to the compiler / linker, in turn, to a database that is connected to the executive system, the inputs of which are connected to parameter values analysis and control objectives and measurement data.

The specified technical result in the particular case of the system implementation is ensured by the fact that the complex of the knowledge representation model contains blocks of display forms, analysis schemes, standard messages, primary and secondary parameters, parameter groups, text tables, 3D mnemonic diagrams, calibration tables, situation matrices, label generator , primary processing algorithms, tolerance tables, a subsystem for archiving source data and knowledge, a subsystem for documenting source data and knowledge, and the data editor is made in the form of an editor block display forms connected to a display form block, an analysis circuit editor block connected to an analysis circuit block, a message editor block connected to a standard message block, a parameter editor block connected in parallel with primary and secondary parameter blocks, a parameter group editor block connected to a block of parameter groups, a block of a 3D mimic diagram editor connected to a block of 3D mnemonic diagrams, a block of calibration characteristics editor associated with a block of calibration tables, a sieve matrix editor block of equations connected to the block of situation matrices, the block of the editor of time stamp generators, connected to the block of generators of time stamps, the block of the editor of primary processing algorithms, connected to the block of primary processing algorithms, the block of the editor of tolerance characteristics, connected to the block of tolerance tables, while all the editors are parallel connected to the project manager, with which the archiving subsystem and the subsystem for documenting source data and knowledge are also connected in parallel

The specified technical result in the particular case of the system implementation is ensured by the fact that the executive system contains a module for planning and organizing the computing process, a module for selecting information from the database, a protocol module, an inter-machine communication module, a module for organizing communication with controllers, an external program execution module, and a graphic display module technological information, dialogue execution module, operator command processing module, technological message processing module, output module yes, sound signals, a module for displaying graphs, trends, text tables, a module for organizing mathematical calculations, expansion modules for graphical objects, expansion modules for mathematical calculations, all modules in parallel with a planning and organization module for the computational process, and a module for selecting information from the databases data is also connected to the database, while the signals of the measurement data and the parameters of the analysis and control goals are connected to the input of the inter-machine exchange module.

The set of essential features of the invention ensures the achievement of a technical result obtained by carrying out the invention. The “programming without programming” method proposed in the method allows specialists in the subject field, or managers, to create unique application software modules for automating the control and management of complex technical processes and objects, practically without the participation of professional programmers. Indeed, the introduction of a complex model for the representation of knowledge about the subject area allows the subject specialist to create a library of knowledge or subject primitives at the beginning that provides a comprehensive description of the control object. Further, this library allows you to create a model of a monitoring and control object in the form of a polymodel complex, which provides a monitoring and control system in the form of a set of measurement data, in the form of a visual display of the state of the monitoring and control object, and as a system of interconnected static and dynamic processes occurring on and in monitoring and control facility. The development process consists in debugging by the user the process of technological management (functioning control) of a technical object, written in a language that is understandable to the user, consisting of the primitives (objects) with which it operates. That is, a technical automation system is being designed, the design results of which automatically produce an executable file of application software.

Storing the model in the form of a polymodel complex of the model (knowledge), and not in the form of data, provides the possibility of computer-aided design, automatic production and automated operation of application software (PPO). Verification of the model ensures the elimination of errors at the design stage, before the creation of the software. Compilation and layout of the model allows you to get the software executable file and write it to the database for transmission to the executive system. In the proposed method, the processes of design and production of software are almost simultaneous, the completion of design means the completion of production and the start of operation of software.

Interaction of a domain specialist with a complex of knowledge representation model (MPZ), formation of a polymodel complex of a model of a monitoring and control object, verification of a model and its storage in a knowledge base, quick extraction of a polymodel complex from a knowledge base in accordance with parameters and goals of monitoring and control, model transformation by compiling and linking the software into an executable file, and using the software in a single process ensures the achievement of the goal of the invention.

The set of essential features of the invention ensures the achievement of an additional technical result obtained by carrying out the invention. Indeed, the method allows investing in a polymodel complex models for processing the incoming measurement data, models for assessing the state of the monitoring and control object, and models for generating real-time decision making alternatives.

The set of essential features of the invention ensures the achievement of an additional technical result obtained by carrying out the invention. Indeed, directly during the operation of the software, a subject specialist can upgrade the software by making changes to the polymodel complex of the model of the monitoring and control object.

The set of essential features of the invention ensures the achievement of an additional technical result obtained by carrying out the invention. Indeed, during the operation of the software, the state of the control object is modeled by assigning certain values to the measured and calculated values of the state control parameters, which provides a check of the operability of the monitoring and control object during operation.

The set of essential features of the invention ensures the achievement of a technical result obtained by implementing the system for implementing the proposed method. A truly automated workstation (AWP) of the user is necessary for organizing a dialogue between a specialist in a subject field and a complex of MPZ. AWP is connected indirectly with the data editor (RD) block, which is necessary for data exchange between a subject specialist and the MPZ complex. At the same time, the RD is also indirectly connected with the database (DB), which stores the initial data, as well as the executable software files. At the same time, the MPZ complex block is necessary for storing the library of domain primitives described in a high-level visual language and allowing describing models of any elements and processes of the monitoring and control object, the knowledge editor (RP) block provides knowledge extraction from the domain specialist and its interaction with the model complex knowledge representation and the formation of a polymodel complex of the model of the monitoring and control object, the knowledge base (KB) provides storage of the polymodel complex of the model the monitoring and control object, as well as the possibility, together with the RP block, to modify the polymodel complex of the model of the monitoring and control object, the project manager forms the required virtual connections between the system components, and also selects operating modes - data and knowledge input from a subject specialist, formation polymodel complex of the model of the object of monitoring and control, operation of the software. The verifier is necessary to verify the correctness, absence of deadlock positions and the consistency of the polymodel complex of the monitoring and control object model [2, 5], the compiler / linker translates the models into executable software files that are written to the database. The database is connected to the executive system (IS), which is necessary for the execution of the software upon receipt of measurement data or other information from the control object or the external environment at the input of the IS. Thus, the design, production and operation system is a single complex, which distinguishes it from traditional systems in which the design, production and operation are carried out by separate, unconnected systems.

The set of essential features of the invention ensures the achievement of an additional technical result obtained by carrying out the invention. Indeed, the MPZ complex and the RD block are proposed to be executed, for example, in the form of a complex of software components located on the corresponding servers. At the same time, software blocks for storing and presenting display forms, analysis schemes, standard messages, primary and secondary parameters, parameter groups, text tables, 3D mnemonic diagrams, calibration tables, situation matrices, label generators, primary processing algorithms, tolerance tables, the source data archiving subsystem and knowledge, the subsystems for documenting initial data and knowledge provide the entirety of the representation of knowledge about the monitoring and control object, and the blocks of the display form editor, analysis circuit editor, the message editor, parameter editor, parameter group editor, 3D mnemonic editor, calibration characteristic editor, situation matrix editor, time stamp generator editor, preprocessing algorithm editor, tolerance characteristic editor provide knowledge extraction and fixing based on data and facts, and the knowledge editor provides extraction and fixation of logical - linguistic, fuzzy knowledge, and, in general, the formation by a specialist of the subject area of the polymodel complex of the model object monitoring and management.

The set of essential features of the invention ensures the achievement of an additional technical result obtained by carrying out the invention. Indeed, the executive system can be implemented as a complex of program modules: a module for planning and organizing a computing process, a module for selecting information from a database, a protocol module, an inter-machine exchange module, a module for organizing communication with controllers, an external program execution module, and a graphic display module for technological information, dialogue execution module, operator command processing module, technological message processing module, audio signal output module, Braces of graphs, trends, text tables, a module for organizing mathematical calculations, an extension module for graphical objects, an extension module for mathematical calculations. These modules are necessary to run the software executables, including the selection of executable files from the database, obtaining measurement data and parameters of analysis goals, performing calculation procedures, forming assessments of the technical condition and decision-making alternatives in accordance with the model of the monitoring and control object ..

The analysis of the prior art carried out by the applicant has established that there are no analogues that are characterized by sets of features identical to all the features of the claimed object “Method for designing, manufacturing and operating application software and a system for its implementation”, therefore, the claimed invention meets the “novelty” condition.

Search results for known technical solutions in this and related fields of technology in order to identify features that match the distinctive features of the claimed invention from the prototype showed that they do not follow explicitly from the prior art.

From the prior art determined by the applicant, the influence of the provided for by the essential features of the claimed invention transformations to achieve the specified technical result and the invention is not based on:

• supplementing a known device - an analogue with any known part, connected to it according to known rules, in order to achieve a technical result in respect of which the effect of this particular addition is established;

• replacement of any part of the device - an analogue of another known part to achieve a technical result, in respect of which the effect of such an addition is established;

• the exclusion of any part of the device - the analogue, with the simultaneous exclusion due to its presence of a function and the achievement of the usual result for such exclusion;

• increasing the number of elements of the same type to enhance the technical result due to the presence of just such elements in the device;

• the implementation of the device or part of a known material to achieve a technical result due to the known properties of the material;

• creation of a device consisting of known parts, the choice of which and the connection between them are based on known rules and the technical result achieved in this case is due only to the known properties of the parts of this device and the connections between them;

• a change in the quantitative sign (s) of the device and the provision of such signs in the relationship or a change in the type of relationship if the fact of the influence of each of them on the technical result is known and new values of these signs or their relationship could be obtained on the basis of known dependencies,

therefore, the claimed invention meets the "inventive step".

The invention is illustrated by drawings, where: in FIG. 1 presents a table of the main stages of the work of a specialist in the subject area, in FIG. 2 is a screen copy of a visual data design and data structures; FIG. 3 is a copy of the screen form of the visual design of the display forms, FIG. 4 is a copy of the screen form of the visual logical design of monitoring and control programs; FIG. 5 is a copy of the screen form of the visual design of the knowledge base; FIG. 6 presents a functional diagram of the proposed method, FIG. 7 presents a structural diagram of a device according to the proposed method, FIG. Figure 8 shows a block diagram of the algorithm of actions of a domain specialist in the design of application software.

According to FIG. 6, the device for implementing the method comprises an automated workstation (AWS) of user 1, database editor (DBD) 2, database (DB) 3, knowledge representation model (MPZ) 4, knowledge base editor (KB) 5, knowledge base ( BZ) 6, project manager (MP) 7, compiler / linker (CC) 8, verifier (VF) 9, executive system (IS) 10. Moreover, AWP 1 is connected to MP 7, which provides program interaction between the main software components and which connected in parallel with RBD 2, BD 3, MPZ 4, RBZ 5, BZ 6 and KK 8, the output of which is connected to VF 9, which The first is connected to the database 3, which, in turn, is connected to the IS 10, the information inputs of which are supplied with the values of the analysis parameters and measurement information. The editors of RBD 2 and RBZ 5 are connected to MPZ 4, which contains a library of domain primitives, which can be updated and supplemented by a specialist in the domain.

According to FIG. 7 blocks of the RD 2 data editor and a set of knowledge representation models MPZ 4 contain: a RFO 2.1 mapping form editor connected to a FO 4.1 mapping form block, a PCA 2.2 analysis circuit editor block connected to a CA 4.2 analysis circuit block, RCC 2.3 standard message editor block connected to the block of standard messages CC 4.3, block of the editor of parameters RP 2.4, connected in parallel with the blocks of primary PP 4.4 and secondary parameters of VP 4.5, block of the editor of groups of parameters RGP 2.5, connected to the block of groups of parameters GP 4.6, block of the 3D editor P3DM 2.6 circuits connected to the 3DM 3DM mimic block 4.7, PTX 2.7 calibration characteristics editor block, connected to TT 4.8 calibration table blocks, PTT 2.8 text table editor block, connected to TT 4.9 text tables, PMC 2.9 situation matrix editor block, connected to the block of situation matrices MS 4.10, the editor block of timestamp generators RVM 2.10 connected to the block of timestamp generators GVM 4.11, the block of the editor of primary processing algorithms RAPO 2.11, connected to the block of primary processing algorithms APO 4.12, the editor block tolerance characteristics of RDH 2.12, connected to the block of tolerance tables of TD 4.13, while all editors are connected in parallel to the MP 7 project manager, with which the archiving subsystem AID 4.14 and the documentation subsystem DID 4.15 of source data and knowledge are also connected in parallel.

And the executive system IS 10 contains: a module for planning and organizing the computational process POVP 10.1, a module for selecting information VI 10.2 from the database, a protocol module MP 10.3, an inter-machine exchange module MMO 10.4, a module for organizing communication with OSK 10.5 controllers, a module for executing external programs of GDP 10.6 , OTI 10.7 technological information graphical display module, VD 10.8 dialog execution module, OKO 10.9 operator command processing module, OTC 10.10 technological message processing module, VZ audio signal output module From 10.11, a module for displaying graphs, trends, text tables OGTT 10.12, a module for organizing the execution of mathematical calculations ОВМР 10.13, expansion modules for graphical objects РГО 10.14, expansion modules for mathematical calculations РМР 10.15, while all modules are connected in parallel with the module for planning and organizing the computational process POVP 10.1, and the module for selecting information from the databases of the VI 10.2 is also connected to the database 3, while the signals of the measurement data and parameters of the analysis goals are connected to the input of the inter-machine exchange module IMO 10.4 management.

The method operates as follows. We will begin the description with a description of the work of a specialist in the subject area with the MPZ, which includes three main stages (see Fig. 1 and Fig. 8):

• Formation of dynamic desktop objects — a list of display windows (panels) on which events are displayed in text or graphical forms (see Fig. 2).

• Preparation of source data (see Fig. 2, 3).

• Description of the interaction algorithm (analysis scheme) of the developed system between dynamic objects and between input / output channels of measurement and analyzed information (see Fig. 4, 5).

Requirements for user qualifications - non-programmer user, specialist in the application domain with operator skills on a personal computer. The work of a domain specialist in the formation of a polymodel complex of a monitoring and control object (WMD) according to the method is as follows (see Fig. 6, Fig. 7 and Fig. 8):

• Through AWP 1, the project manager 7, an appeal is made to the blocks of the data editor RD 2.1-2.12 and knowledge RP 5, the design using the blocks of the MPZ 4.1-4.13 complex of the database 3 and knowledge knowledge base 6 about monitoring objects. This stage involves the creation on the basis of design documentation (CD), operational documents, and other available information of the "skeleton" of the information model of the monitoring and control object (WMD) in the form of a hierarchical representation. In the future, as a rule, a return to this stage is carried out to develop and clarify the description of WMD;

• designing structures and data types. At this stage, the parameters, variables, text tables and other data structures used during monitoring are described (using RD 2.4 -2.5 and MPZ 4.4-4.6;

• visual design of forms (RD 2.1 and 2.6 and MPZ 4.1 and 4.7). Mimic diagrams are created, dialog boxes with which the user will work at the stage of analysis;

• logical design of monitoring programs. The most important stage of designing a monitoring system. Using the proposed MPZ complex, the user fills (or clarifies) the previously created WMD description, that is, in fact describes the functioning of the WMD with its subsystems and elements in the language of the subject area, to the required level of detail (RD 2.1, 2.2, 2.7-2.12 and MPZ 4.1 , 4.2 4.8-4.13).

Implementation of the proposed method in the form of a software package provides the following tasks:

• loading into the database of measuring information of an arbitrary nature (functional, signal, digital, etc., the type of measured parameters) for subsequent analysis and display;

• preservation of the received and analyzed information in archives;

• secondary processing and automated analysis of measurement information, taking into account the history;

• a graphical representation of the accepted, processed and analyzed measurement information in a form convenient for its further use;

• notification of emergency situations provided for in the measurement information analysis program (visual, sound, signal command generation);

• exchange of information with other computer systems within the framework of local computer networks.

• The purpose of the analysis may be:

• monitoring the functioning of the monitoring and control facility;

• monitoring the performance of the monitoring and control facility;

• diagnosis of malfunctions of the monitoring and control object;

• forecasting the behavior of the object of monitoring and control, etc .;

• displaying the contents of the database and knowledge in the form and volume specified by the user (including in the interactive mode);

• documenting the contents of the database and knowledge (both the measurement results and the results of the analysis of measurement information).

After the formation of the polymodel complex of the WMD, it is verified [5], compiled [7] and the layout of the executable files that are written to the database of the database 3. The executive system IS 10 upon arrival at its input parameters of the goals of analysis overloads the executable file from the database 3 and launches it execution.

The main advantage of the method is “programming without programming,” which allows the specialists in the subject field or managers to create unique application software modules for automating the control and management of complex technical processes and objects, practically without the participation of professional programmers. The development process consists in debugging by the user the process of technological management (functioning control) of a technical object, written in a language that is understandable to the user, consisting of the primitives (objects) with which it operates. That is, a technical automation system is being designed, the design results of which automatically produce an executable file of application software.

In modern programming, one can distinguish several basic paradigms, for example: imperative or algorithmic programming (C, Pascal), logical programming (Prolog), functional programming (LISP, REFAL). An important place in this series is occupied by constraint programming, which is developing especially actively and is becoming more and more popular. Programming in constraints is inherently as declarative as possible and is based on a description of the problem model, and not an algorithm for solving it [1]. The model is specified in the form of an unordered set of relations that correspond to the relations existing between the parameters of the problem. These relations, called the general term "restrictions" can take the form of equations, inequalities, logical expressions, and the like.

It is noteworthy that the same model can be used to solve various problems. At the same time, the statement of a particular problem is concretized by adding restrictions to the allowable parameter values into the model or by formulating additional relations between them.

The basis of the method is a model description of a subject area or control object with the help of a complex model of knowledge representation (MPZ) in the form of a modified semantic network, the attributes of the lowest epistemological level in which are the denotations of the subject area, the principle of interaction with which is based on model technology [2]. The MPZ data are close to computational models developed in conceptual programming and generalized computational models in the framework of underdetermined calculations. In MPZ models of declarative description of the subject area are used, focused on solving particular problems of a particular stage of monitoring and control, which as a whole can be considered as a single specialized generalized computational model for solving problems of automated monitoring and control in real time in constraints. In this regard, the properties of the models used should be considered as the sum of the properties of each of the models used in the previous stages of modeling. The models used at all these stages are based on a priori representation of knowledge about the subject area in the form of the so-called G-models [3]. The expressive abilities of G-models allow us to represent any stage of monitoring and / or control in the form of a model of primary and secondary parameters, parameter groups, text tables, 3D mnemonic diagrams of static and dynamic, changing with changing parameters, various forms of display, in the form of various logical, logical linguistic, fuzzy models, various models of processing measurement data. In this case, the model is formed by a specialist in the subject field, not a programmer, which significantly reduces the time needed to develop application software and the number of errors. The domain specialist creates models using primitives of the domain described in high-level visual languages (CASE - means oriented to the end user - domain specialist) [4]. Storage of models in the knowledge base provides the possibility of operational, including in real time, their changes, the possibility of logical linking of individual models into a single model complex of the control object, automated search and accumulation of new knowledge.

The system for implementing the method operates as follows (see Fig. 7 and Fig. 8).

Technically, the editorial block RD 2 provides the interaction of a domain specialist with the MPZ 4 complex: the RFO 2.1 mapping form editor connected to the FS 4.1 mapping form editor, the PCA 2.2 analysis circuit editor block connected to the CA 4.2 analysis circuit MVS, the RCC 2.3 standard message editor block connected to the MPZ of standard messages SS 4.3, the parameter editor block RP 2.4, connected in parallel with the MPZ primary PP4.4 and secondary parameters VP 4.5, the editor block of the parameter groups RPG 2.5, connected to the MPZ parameter groups GP 4.6, the editor block a torus of 3D mnemonic diagrams P3DM 2.6 connected to an MPZ 3D mnemonic diagrams 3DM 4.7, a block of PTX 2.7 calibration characteristics editor, associated with an MPZ of calibration tables TT 4.8, a block of text tables editor PTT 2.8, connected to an MPZ of texts TT 4.9, a block of editor of the matrix of situations matrix R MS 2.9 connected to the MPZ of the situation matrices MS 4.10, the editor block of the timestamp generators RVM 2.10, connected to the block of the generators of the timestamps GVM 4.11, the block of the editor of the primary processing algorithms RAPO 2.11, connected to the MPZ of the primary processing algorithms APO 4.12, the block of the editor of tolerances x 2.12 RDH characteristics coupled to FPU tables tolerances TD 4.13. At the same time, all editors are functionally connected with the MP 7 project manager, which controls access to the corresponding resources of the RD 2 and MPZ 4 editors. The AID 4.14 archiving subsystem and the DID 4.15 documenting subsystem of source data and knowledge ensure the accumulation and preservation of source data. After the development of the polymodel complex is completed, the executive system IS 10, having received, via the inter-machine exchange module MMO 10.4, selects the data of the parameters of the analysis targets from the database 3 using the information selection module VI 10.2, the required version of the model, which goes to the planning and organization module of the computational process POVP 10.1, which organizes execution of all computational, logical and graphical procedures of the application software of the monitoring and control facility. Logging modules MP 10.3, organizing communications with OSK 10.5 controllers, executing external programs of GDP 10.6, graphically displaying technological information OTI 10.7, executing dialogs VD 10.8, processing commands from the operator OKO 10.9, processing technological messages OTS 10.10, outputting sound signals from VTS 10.11, displaying graphs OGTT 10.12, trends, text tables, organization of performing mathematical calculations ОВМР 10.13, expansion of graphic objects РГО 10.14, extensions for mathematical calculations РМР 10.15, intended for execution rikladnyh programs for each of the knowledge units in the model representation of WMD.

In this case, all modules are in parallel connected with the planning and organization module of the POVP 10.1 computational process, the signals of the measurement data and the parameters of the analysis and control goals are connected to the input of the inter-machine exchange module MMO 10.4.

The knowledge representation model of MPZ 4 is essentially a system of automated preparation of initial data and knowledge, designed to enter the initial data and knowledge about the monitoring and control object, represented by measuring information of an arbitrary nature and logical processing schemes and decision-making, into the database (DB) and a knowledge base, viewing and adjusting data and knowledge contained in the knowledge base and describing a specific object of analysis.

MPZ 4 [6] is a collection of databases storing primitives of the subject area (see Fig. 5, Fig. 7 positions 4.1-4.15) and allows for each monitoring and control object (WMD) to operate (see Fig. 2, 3, 4, 5, Fig. 7 positions 2.1-2.12) with the following data types:

• data on the parameters;

• data about text tables;

• data on the sub-ranges of parameter values;

• data on parameter groups;

• data on mathematical models;

• macro data;

• data on generators;

• data on analysis schemes.

Primary parameters are indicators of the properties of WMD, presented in the form of measured (telemetry) parameters in real time that characterize its state (see Fig. 2, Fig. 7, positions 2.4 and 4.4).

Secondary parameters (variables) are indicators (characteristics) of the state of WMD, calculated by various algorithms (schemes) based on the values of the primary parameters. The final results of the assessment of the state of WMD are the values of the secondary parameters (see Fig. 2, Fig. 7 positions 2.4 and 4.5).

Data on the sub-ranges of parameter values are intended to quantize their values, if necessary (in particular, to make the transition from a continuous measurement scale to a discrete representation of parameter values used in the analysis). In accordance with the table of subranges for the indicated parameters, the entire range of their values is divided into several levels (quantized by level) (see Fig. 2, Fig. 7, positions 2.12 and 4.13, 2.8 and 4.9).

Data on groups of parameters is intended to indicate those sets of parameters or variables whose values should be analyzed together when developing analysis schemes - in the process of analyzing measurement information. Each group may include at least one parameter or variable.

Text tables (tables of text lines) are intended for preparing the initial data of a text parameter - text messages displayed during the analysis of measuring information characterizing the state of the object (see Fig. 2, Fig. 7, positions 2.6 and 4.7).

Data on mathematical models (laws of behavior of parameters) is the basis of the process of state analysis, monitoring and control. With their help, the correct functioning of WMD can be carried out at some stage of the analysis process, determining the mode of its functioning, diagnosing malfunctions (when they occur), predicting behavior, making recommendations for managing the object (see Fig. 4, Fig. 5, Fig. 7 positions 2.2 and 4.2, 2.11 and 4.12). Analysis schemes are a model for formalizing knowledge about the sequence and attributes of the analysis process. They can be considered as procedures written in a specialized language of macro definitions (operators), each of which performs an elementary (from the point of view of a specialist - WMD expert) step of analyzing or converting input data into output data in accordance with the purpose of analysis.

Depending on the objectives of the analysis, the user forms a set of such procedures - analysis schemes that are called and processed during the information analysis session and provide the user with all the necessary information about the state of the WMD.

The analysis schemes are intended to describe (formalize) the entire list of actions that can be performed in solving problems of assessing the technical condition of the monitoring and control object with the involvement of all previously prepared source data.

Generator - designed to generate timestamps of real and model time in the analysis schemes (see Fig. 2, Fig. 7 positions 2.10 and 4.11).

Macro - a certain sequence of operators, which allows to exclude repeated repetition of identical operators in the analysis scheme and determine the sequence of their execution in the process of automated analysis of telemetry information (see Fig. 2, Fig. 7 positions 2.9 and 4.10).

To graphically display the values of the measured parameters, mnemonic diagrams of the functioning of the WMD, arrow, strip, digital indicators, as well as signal panels of various shapes and contents are used. The objects listed above are created by means of a graphical editor (see Fig. 3, Fig. 7, positions 2.1 and 4.1).

The technology for preparing the source data should begin with a description of the properties and features of the controlled object - WMD. WMD can be represented in a structured form, consisting of systems, subsystems, etc. In fact, WMD is the object of analysis of the highest level of the hierarchy. Each WMD system can be considered as a separate object of analysis of a lower level, having a certain finite set of states depending on the values of the primary (measured) parameters and secondary (calculated) parameters. Systems, in turn, can consist of subsystems that are also WMDs of an even lower level, but the number of such levels is always finite and determined in advance.

The following characteristics can be presented as data on the controlled object:

• the object belongs to the field of technology, science, etc .;

• Object name;

• number (serial number) of the facility;

• date of creation (production) of the facility;

• specific data characterizing the object.

For each WMD, it is necessary to have a list of primary (measured) parameters and secondary (calculated) parameters, based on the analysis of which, according to predetermined models and algorithms, one can judge its state, while a list of possible states of WMD should be presented, for example:

• serviceable, faulty, in emergency condition;

• operable, unworkable, efficient with minor restrictions, etc.

For each WMD, a formalized representation should be defined in a form convenient for displaying and (or) documenting its states. Such a representation should be given in the form of a mnemonic diagram of an object or a set of mnemonic diagrams characterizing an object. Any changes that occur on the mnemonic diagram of the object of analysis occur according to the results of the implementation of models and algorithms for analyzing the values of both primary (measured) parameters and values calculated during the session of analysis of indicators, parameters and variables.

Thus, for WMD should be given:

• list of object mnemonic diagrams;

• a list of primary (measured) parameters that determine the state of the object;

• a list of indicators (variables, parameters) calculated in the process of analysis that make it possible to judge the state of an object;

• a list of models and algorithms by which the process of analyzing the state of an object occurs.

The main features and characteristics of the software package for implementing the proposed method:

количество одновременно анализируемых параметров: до 1,6×10⁷;

number of simultaneously analyzed parameters: up to 1.6 × 10 ⁷ ;

диапазон значений анализируемых параметров: для целых чисел: от -2147483648 до 2147483647, для чисел с плавающей точкой - мантисса 15 значащих десятичных цифр, порядок - от -307 до +308;

range of values of the analyzed parameters: for integers: from -2147483648 to 2147483647, for floating-point numbers - the mantissa of 15 significant decimal digits, order - from -307 to +308;

количество значений анализируемых параметров в одном сеансе вторичной обработки до 6×1010;

the number of values of the analyzed parameters in one secondary processing session up to 6 × 1010;

точность временной привязки анализируемых событий и явлений до 10-3 секунды;

accuracy of the timing of the analyzed events and phenomena up to 10-3 seconds;

сложность унифицированных структурных вычислительных модулей:

the complexity of unified structural computing modules:

матрицы ситуаций (до 512 ситуаций одновременно);

matrix of situations (up to 512 situations simultaneously);

конечно-автоматные модели;

finite automaton models;

линейно-ограниченные автоматы;

linearly bounded automata;

уникальные модули произвольной мощности;

unique modules of arbitrary power;

универсальные пакеты прикладных программ;

universal application packages;

количество одновременно используемых панелей отображения результатов анализа и рабочих окон на одном мониторе - ограничено объемом доступной оперативной памяти и эргономическими возможностями.

the number of simultaneously used panels for displaying analysis results and working windows on one monitor is limited by the amount of available RAM and ergonomic capabilities.

The software package for the automated design, production and operation of application software for monitoring status and management can function in the environment of the operating systems of the Windows family (Windows NT, Windows 2000, Windows XP), Linux, QNX and use a specialized database management system (DBMS) in its work ), a system for providing a multi-window graphical interface and C / C ++ programming language.

As follows from the foregoing, the achievement of the technical result is a reduction in the development time and creation of application software simultaneously with the creation of models of the control and monitoring object, operational correction of the application software during its operation, the ability to simulate the state of controlled objects by assigning values to measured and calculated parameters, creating application software for any subject area is ensured by that at the beginning they form a complex of a model for presenting knowledge about the subject area of a monitoring and control object, then, on the basis of a complex of a model for representing knowledge, form a model of a monitoring and control object in the form of a polymodel complex — data processing models and data structures, graphic display models of elements and processes , logical models of elements and processes of the monitoring and control object, then these models of the polymodel complex are verified and recorded in the knowledge base, then in the operation process, is carried out, based on the values of the parameters of the analysis objectives, the extraction of the polymodel complex of models from the knowledge base, then the automatic program-oriented conversion of the selected polymodel complex of the model of the object of monitoring and control into executable modules of the applied software. A comparison of the parameters characterizing the claimed invention and the prototype allows us to conclude that the claimed method and system for its implementation provide the creation of highly efficient, universal, independent of the subject area, relatively fast and reliable means of computer-aided design and operation of application software, directly by subject area experts in the process creation or design of monitoring and control systems, with the ability to quickly th modification of the software during its operation.

In addition to the indicated technical result achieved and the advantages of the claimed method, their additional properties should also be noted as a reduction in the design and production time of software, an increase in the efficiency of software operation, and the ability to adapt when changing external conditions or the structure of the monitoring and control object. A distinctive feature of the proposed method is the fact that the development tools for application software and operating tools are combined within a single system. The software package proposed on the basis of the method will significantly reduce the time and cost of creating or modifying application software for monitoring and controlling the state of an object in real time, as well as increase the level of automation, reliability and efficiency of these processes, expand the capabilities of managing objects during the degradation of their structures , to identify the occurrence of malfunctions in the early stages and make appropriate decisions to prevent emergency situations.

Thus, the above information proves that when implementing the claimed invention, the following conditions are met:

• a tool that embodies the method and system for its implementation is intended for use in the development of automated intelligent information systems for decision support in any industry;

• namely, in the energy sector (nuclear power plants, hydroelectric power stations), in the rocket and space industry in the preparation and launch of space rockets.

• For the claimed invention as described in the independent claim, the possibility of its implementation using the described or other means known prior to the filing of the application has been confirmed;

• A tool that embodies the claimed invention in its implementation, is able to provide the specified technical result.

Therefore, the claimed invention meets the condition of patentability "industrial applicability".

Information sources

1. A.S. Narignani. Model or algorithm: a new paradigm of information technology. // "Information technology", No. 4, M., 1997.

2. Intelligent technologies for monitoring and controlling the structural dynamics of complex technical objects / M.Yu. Okhtilev, B.V. Sokolov, P.M. Yusupov. - M .: Nauka, 2006 .-- 410 p.

3. Okhtilev M.Yu. Definition and basic properties of one of the modifications of computational schemes of recognition algorithms // Programming, 1991, No. 6, P. 52-63.

4. Pogorelov V.I. The system and its life cycle: an introduction to CALS technology: a training manual / Balt. Gos. Tech. Un-t., St. Petersburg., 2010 .-- 182 p.

5. Kulyamin VV Software verification methods: Institute for System Programming RAS - Internet resource: ict.edu.ru/ft/005645/62322e1-st09.pdf

6. A set of models for the representation of knowledge - http://science.mivar.ru

7. Ivanova G.S. Programming technology .: textbook / G.S. Ivanova. - 3rd ed., Erased. - M.: KNORUS, 2016 .-- 334 p.

Claims (7)

1. The method of computer-aided design, production and operation of application software, in which the processing of the source data arrays, which are stored in the database, and program-oriented conversion of the source data array into an executable application software module, characterized in that at the beginning a complex of a model for the representation of knowledge about the subject area of the monitoring and control object, then produce, based on a complex of a model for the representation of knowledge studies, the formation of a multimodel complex of the model of the monitoring and control object in the form of a set of models — data processing and data structures, graphic display models of elements and processes, logical models of elements and processes of the monitoring and control object, then these models are verified and recorded in the knowledge base, then in the operation process is carried out, based on the values of the parameters of the goals of the analysis, the choice of model, then automatic program-oriented conversion of the selected source model The object of monitoring and control to the executable application software. 2. The method according to p. 1, characterized in that the application software processes the measurement data, assesses the condition and the formation of decision-making alternatives. 3. The method according to p. 1, characterized in that during operation the produced application software is modernized by making changes to the polymodel complex of the model of the monitoring and control object. 4. The method according to p. 1, characterized in that during operation they simulate the state of the control object by assigning values to the measured and calculated values of the state control parameters. 5. A system for computer-aided design, production and operation of application software for implementing the method according to claim 1, comprising a user workstation connected indirectly to a data editor unit, which is also indirectly connected to a database, characterized in that a complex of models is additionally introduced knowledge submission, knowledge editor block, knowledge base, project manager, model verifier, compiler / linker and executive system, while the editor block the data is connected indirectly through the project manager with a block of knowledge representation models and also indirectly through a project manager with a knowledge editor block that is connected to the knowledge base, while the knowledge base is connected to the project manager, which is connected in parallel with the database editor, with the knowledge base editor, with an automated workstation and with a model verifier, which, on the other hand, is connected to a compiler / linker connected, in turn, to a database that is connected to the executive systems e, the inputs of which are connected to the values of the parameters of the goals of analysis and control and measurement data. 6. The computer-aided design, production and operation of the application software according to claim 5, characterized in that the block of knowledge representation models contains blocks of display forms, analysis schemes, standard messages, primary and secondary parameters, parameter groups, text tables, 3D mnemonic diagrams, calibration tables, situation matrices, label generator, primary processing algorithms, tolerance tables, subsystem for archiving source data and knowledge, subsystem for documenting source data and knowledge, and The data editor is made in the form of a display form editor block connected to a display form block, an analysis circuit editor block connected to an analysis circuit block, a message editor block connected to a standard message block, a parameter editor block connected in parallel with the primary and secondary parameter blocks, block of the editor of parameter groups connected to the block of parameter groups, block of the editor of 3D mnemonic diagrams, connected to the block of 3D mnemonic diagrams, block of the editor of calibration characteristics associated with the block calibration table, situation matrix editor block connected to the situation matrix block, time stamp generator editor block, connected to the time stamp generator block, preprocessing algorithm editor block, connected to the preprocessing algorithm block, tolerance editor block, connected to the tolerance table block At the same time, all editors are connected in parallel to the project manager, with which the archiving subsystem and the documentation subsystem are also connected in parallel. data and knowledge. 7. The computer-aided design, production and operation of the application software according to claim 5, characterized in that the executive system includes a module for planning and organizing the computing process, a module for selecting information from the database, a protocol module, an inter-machine communication module, a module for organizing communication with controllers , module for executing external programs, module for graphical display of technological information, module for executing dialogs, module for processing operator commands, module processing of technological messages, a module for outputting audio signals, a module for displaying charts, trends, text tables, a module for organizing mathematical calculations, expansion modules for graphic objects, expansion modules for mathematical calculations, while all modules are connected in parallel with the planning and organization module for the computational process, and the module for selecting information from the databases is also connected to the database, while the signals of the measurement data and the parameters of the target are connected to the input of the inter-machine exchange module th analysis and management.

Images