Vol 13, No 1 (2023)

Cover Page

Full Issue

EDITORIAL

Ontologies in computer science

Editorial B.
Ontology of Designing. 2023;13(1):5-9
pages 5-9 views

GENERAL ISSUES OF FORMALIZATION IN THE DESIGNING: ONTOLOGICAL ASPECTS

Interactive generation of new knowledge based on automatic means of logical inference

Vassilyev S.N.

Abstract

The work relates to the field of knowledge representation and algorithmization of their processing. To describe the subject of consideration by a set of statements and their processing, logical means of the first order type are used. Unlike the well-known achievements in the field of automatic proof (AP) in formal axiomatic theories, the automatic text synthesis of statements is complicated by the poor formalizability of the value of knowledge concept contained in the text. Based on the development of the calculus of positively-formed standardized formulas (pfs-formulas) the possibilities of analysis automation of the description of the subject matter and interactive generation of meaningful statements to improve this description are investigated. The proposed method of interactive knowledge generation integrates the capabilities of AP with algorithmized human-machine synthesis of new knowledge texts. AP in the calculus of pfs-formulas helps a person not only in the analysis of properties, but also in the choice of the required properties of the description of the subject matter. When the absence of a property desirable for a person in the analyzed knowledge is revealed by means of AP, the hypotheses is formed that logically guarantees the presence of the required property. Variants of hypotheses are automatically synthesized in a preliminary form, which are then refined interactively to improve the content of the generated text of new knowledge. The rules of synthesis are justified. Their application continues the inference in situations of inapplicability of the basic rule of inference in the calculus of pfs-formulas. The extension of calculus by the rules of synthesis transforms it as a first-order calculus of the deductive type into a means of deductive-abductive inference, which differs from the known works using abduction by the absence of a number of restrictions. Illustrative examples demonstrate the representation, analysis and generation of knowledge. These examples also show in interactive knowledge processing the importance of visualization of the processed text, provided by the large-block structure of pfs-formulas constructed from typical quantifiers. In conclusion, the results of the paper and possible directions for the development of the results are formulated.

Ontology of Designing. 2023;13(1):10-28
pages 10-28 views

Approach to assessing the level of intelligence of an information system

Mikoni S.V.

Abstract

Based on the analysis of the definitions of natural and artificial intelligence (AI), basic functions are proposed that reflect the cognitive activity of the brain. Their interpretation in a broad sense, using the rules of Russian grammar, made it possible to describe the entire range of concepts used in AI. The possibility of expressing basic functions in terms of simpler ones and combining them into more complex ones is shown. The completeness, consistency and non-redundancy of the basis of the cognitive functions of the brain are substantiated. The 14 basic functions are divided into 4 groups, reflecting different aspects of working with knowledge. This made it possible to consider the AI system as a specialized information processing system. For a sign that distinguishes the AI subsystem in the information system, a simulation approach to modeling the functions of the human brain is adopted. The level of intelligence of an information system is characterized by indicators of the share of hardware and software required for the implementation of AI models in the total amount of hardware and software of the information system. An example of assessing the level of intelligence of an information system of an unmanned aerial vehicle is given.

Ontology of Designing. 2023;13(1):29-43
pages 29-43 views

APPLIED ONTOLOGY OF DESIGNING

Semantic modeling in the construction of digital twins of energy objects and systems

Massel L.V., Massel A.G.

Abstract

The article deals with the problem of building Digital Twins and Smart Digital Twins for control and management in power systems. The energy system is understood as a set of energy resources of all types, methods for their production (extraction), transformation, distribution and use, as well as technical means and organizational complexes that ensure the supply of consumers with all types of energy. Integrated intelligent energy systems are analyzed as one of the important trends in the Russian energy sector, and the main directions of digitization of the energy sector are considered. The concept of "digital twins" in technical fields is considered as one of the main digitalization trends, an ontological approach to building digital twins and semantic models for building smart digital twins are proposed. It is proposed to use a fractal approach when performing ontological engineering, which makes it possible to formalize the concepts of the subject area and allows you to build different-scale ontologies using metalevels of ontologies. Formalized models of digital twins and smart digital twins are presented. The developed approaches are illustrated by the example of construction of digital twins of a solar power plant and smart digital twins of a fuel and energy complex. The approach described in the article makes it possible to integrate different levels of digital and smart digital twins into a single digital solution when modeling energy facilities and power systems.

Ontology of Designing. 2023;13(1):44-54
pages 44-54 views

Ontology of human identification by face and body motions in video surveillance systems

Kolodenkova A.E.

Abstract

At the present stage of advancing information technology, the development of models and recognition methods by body movements and faces in video surveillance systems is a topical problem. This task is essential for security issues, especially at facilities with mass gatherings to counter a terrorism-related crime. The paper presents a classification of the main biometric features and parameters that characterize a potential violator. This classification has been developed for security control systems and access systems of enterprises. A block diagram of merging biometric data and violator recognition by body motions and face which can be used as the basis for the development of security control systems is proposed. The types of systems and methods of human recognition by body movements and face are considered, their advantages and disadvantages are revealed. It is noted that for accurate violator recognition under a set of biometric features, it is reasonable to use a combination of recognition methods which will allow to make the right decisions regarding the identification of a potential violator. This paper attempts to consider the main aspects related to human recognition by body movements and face in video surveillance in general, in contrast to well-known works devoted to individual biometric features.

Ontology of Designing. 2023;13(1):55-74
pages 55-74 views

An information system to support preliminary design of small spacecraft

Tkachenko I.S., Safronov S.L., Korovin M.D., Ivanushkin M.A., Krestina A.V.

Abstract

With the development of information technology, the role of support systems for the technical products design process has increased significantly. The capabilities of knowledge management systems make it possible to ensure the commonality of terminology, object definitions and relations between them. In addition, the use of formal semantics is necessary to support the reuse of knowledge. The article discusses ways to improve the efficiency of the small spacecraft design process and a creation of tools for the knowledge exchange about the functional characteristics of typical subsystems of such vehicles. The creation of an information system to support the preliminary design of small spacecraft, which contains information linked to the relationship between the functions and components of subsystems and their characteristics, is considered. The created system facilitates the synthesis of various product configurations. When developing the information system, modern approaches in the field of structural and functional classifications of small spacecraft systems and approaches existing in the field of taxonomy to create database structures were used. The information system database contains a set of characteristics for a wide range of small spacecraft equipment. As an example of the use of an information system to support the design of small spacecraft, the process of choosing the characteristics of a power supply system for a promising small spacecraft designed to provide communication between mobile ground terminals is considered..

Ontology of Designing. 2023;13(1):75-89
pages 75-89 views

Designing a flight information collection system for calculating the aerodynamic characteristics of a UAV

Hamzah H. .

Abstract

The article describes the development of an onboard information collection system for calculating the aerodynamic characteristics of unmanned aerial vehicles (UAVs), which can only be obtained under free flight conditions. A functional diagram is presented, a flight parameters registration system operation algorithm is described. The proposed solutions make it possible to collect a large amount of information and improve system efficiency through the selection and compression of information. The collected information is used to determine the aerodynamic characteristics, eliminating the need to test UAVs models in wind tunnels, which can save money and time on the development of new UAVs. The features of the information exchange between the system elements are considered, which make it possible to speed up the data transfer, and therefore improve the accuracy of measurements by increasing the frequency of polling measuring devices. The results obtained may be of interest to developers of autonomous measuring systems. Of particular importancce for calculating the aerodynamic characteristics of an UAV using the proposed method is the high accuracy of measuring the parameters of the aircraft trajectory, including the linear accelerations and angular velocities that occur in the course of motion. In addition, the article considers a variant of the hardware implementation of the proposed system for UAVs.

Ontology of Designing. 2023;13(1):90-98
pages 90-98 views

Designing an ontology of the e-learning course content

Solovov A.V., Menshikova A.A.

Abstract

Knowledge modeling, closely related to ontologies, is an important semantic technology and research area. The article deals with the e-learning course content model concept. The content model is based on structuring the content into separate fragments, called learning elements. These learning elements integrate into a tree directed graph. The content model is defined as a combination of such a graph and a table of attributes of educational elements with requirements for didactic indicators of their study. The rules for building models of the electronic educational content are formulated. The mathematical properties of these models are discussed and their integral characteristics are introduced. The proposed approach to content modeling is in line with the SCORM specifications for international e-learning, complements them with targets, didactic design algorithms and analysis of educational materials. Formation algorithms and methods of presenting the content model make it possible to automate the process of its construction and didactic analysis in the form of a visual interactive dialogue between developers of electronic educational resources in instrumental author's environments.

Ontology of Designing. 2023;13(1):99-112
pages 99-112 views

ONTOLOGY ENGINEERING

Data credibility when populating ontologies and knowledge graphs

Sery A.S.

Abstract

The problem of assessing trust in the information extracted from textual sources to populate ontologies or knowledge graphs is considered. For a unit of information or a fact, the minimum knowledge about an instance of the subject area, expressed by a single RDF triplet, is taken. The paper provides a description of a probabilistic trust evaluation model based on Markov random processes. When assessing, the model is built on the basis of available information about sources, taking into account previously extracted data. A method for assessing the credibility of information with parallel weighting of sources is also provided. The proposed approach is in demand when the quality of the data sources is unknown or unavailable. As part of testing the model, sets of numerical data of various sizes were automatically generated, experiments were carried out to weigh the sources and assess trust in the information extracted from them. It was shown that in most cases the weights of the sources calculated on the basis of the proposed model are the greater, the smaller the average deviation of the information they provide from the true one, and the confidence in facts increases with decreasing distance to the true data. Comparison with data aggregation models is made. In most cases, the aggregation based on the trust score showed the smallest average deviation from the true data among the considered models. The obtained results show that the proposed model is effective in comparison with other similar models and can be used in problems of assessing trust in facts represented by real numbers.

Ontology of Designing. 2023;13(1):113-124
pages 113-124 views

METHODS AND TECHNOLOGIES OF DECISION MAKING

Multi-aspect modeling of situation in the functional safety control tasks of hardware and software complexes

Gvozdev V.E., Bezhaeva O.Y., Safina G.R.

Abstract

Functional safety is a latent characteristic of hardware and software complexes (HSC) and is objectively characterized by consumer satisfaction with the HSC behavior. The paper considers an approach to solving project management problems based on the dynamic characteristics analysis of functional safety of conflict situations in the project management system. To analyze situations that arise when managing HSC projects, it is possible to use models known as system archetypes. The information essence of situations and the foundations of multi-aspect modeling are considered. The methodological basis of the research is a combination of dynamic models of parameters that characterize functional safety and structural models, corresponding to conflict situations that arise when ensuring the required level of functional safety. Examples of multi-aspect modeling of situations where manifestations of latent defects act as events are considered. As a result of the research, the information essences of situations are determined, the conceptual foundations of multi-aspect modeling of situations that arise when managing the HSC functional safety are proposed, and the basic stages of building a system of structural and dynamic models of situations at different stages of the HSC life cycle are identified. The results obtained can be used to make decisions about the advisability of making changes to the system structure for ensuring the functional safety of hardware and software complexes..

Ontology of Designing. 2023;13(1):125-138
pages 125-138 views

Ontological fuzzy-possibility approach to creating a pyrolysis furnace control model

Kimyaev I.T.

Abstract

For objects of economic activity, the development and implementation of an applied approach to creating a subsystem for making managerial decisions that eliminate possible semantic gaps between adjacent layers of the production and technological hierarchy when describing multi-level information flows are considered. The decision subsystem created with the help of the proposed approach is capable of processing multi-level data flows in a complex structure of maintaining these objects in a viable state. The approach proposed by the author is based on vertically integrated ontological models created using standard software tools. The identified semantic links between concepts within the formalized multi-level ontological models are restored using the explicit and implicit knowledge of experts about the conduct of production operations. A fuzzy-possibility approach was chosen as a methodological basis for extracting and formalizing expert knowledge in the form of a fuzzy analytical polynomial. The application of the proposed approach is shown by the example of controlling the process of pyrolysis of high-molecular hydrocarbon raw materials in specialized furnaces.

Ontology of Designing. 2023;13(1):139-149
pages 139-149 views

Articles

Recommended publications

Editorial B.

Abstract

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Ontology of Designing. 2023;13(1):150-152
pages 150-152 views

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