META-SITUATIONAL MODELING IN DESCRIPTION OF SOCIAL AND ECONOMIC PROCESSES IN EDUCATION
Annotation
The paper deals with the development of meta-situational modeling concept in the field of formalized description of nondeterministic socio-economic processes in relation to education. The goal of the paper is to increase the efficiency and optimization of decision-making procedure, in general, and informational support for formalized processes, in particular. To achieve this goal, it is proposed to introduce the concept and methodology of modeling as meta-situational integration situation (event) and ontological (semantic) approaches. It is assumed that the two-level description of the situation (at declarative and descriptive levels) will give the possibility for varying levels of abstraction in relation to process and get access to data and knowledge about it at that stage, when it is objectively necessary. Another obvious advantage of the proposed approach is simplicity of implementation due to a widespread situation and ontological approaches and, consequently, their formalization methods (mathematical apparatus) and instrumental software implementation (programming languages, display formats, etc.). To verify the efficiency of the proposed meta-situational approach, a typical example of weakly formalized situations is considered - one of the options assessment tools traditionally used in education. Both components of the process are described in detail: situational one, specifying stepwise development procedures and ontological, characterizing taxonomic aspect of the process. The order of a formalized description for meta-situational model structure based on data representation formats similar to XML (category "Semantic Web") is determined.
Keywords
Постоянный URL
Articles in current issue
- VISUALIZATION METHODS OF VORTICAL FLOWS IN COMPUTATIONAL FLUID DYNAMICS AND THEIR APPLICATIONS
- POINT SOURCE IN THE LAYERED MEDIUM WITH METAMATERIALS: METHOD OF RECURRENT RELATIONS
- DYNAMIC PARAMETERS ESTIMATION OF INTERFEROMETRIC SIGNALS BASED ON SEQUENTIAL MONTE CARLO METHOD
- SECTIONING METHOD APPLICATION AT ELLIPSOMETRY OF INHOMOGENEOUS REFLECTION SYSTEMS
- TRUST AND REPUTATION MODEL DESIGN FOR OBJECTS OF MULTI-AGENT ROBOTICS SYSTEMS WITH DECENTRALIZED CONTROL
- INTERVAL OBSERVER FOR A BIOLOGICAL REACTOR MODEL
- OPTIMAL CONTROL SYSTEM FOR PRECISION ELECTRIC DRIVE WITH GUARANTEED DEGREE OF STABILITY
- NONLINEAR OPTICAL MOLECULAR CRYSTAL BASED ON 2,6-DIAMINOPYRIDINE: SYNTHESIS AND CHARACTERIZATION
- THERMOELECTRIC PROPERTIES OF HOT-PRESSED p-TYPE Mg2Si0.3Sn0.7 SOLID SOLUTION
- POSSIBILITY RESEARCH FOR SILICON CARBIDE BULK CRYSTALS GROWTH OF 3C POLYTYPE FOR POWER DEVICES
- MODIFICATION OF SURFACE LAYERS FOR SILICATE GLASSES BY ELECTRON IRRADIATION
- LUMINESCENT PROPERTIES OF SILICATE GLASSES WITH CERIUM IONS AND ANTIMONY
- THERMAL INSULATION PROPERTIES RESEARCH OF THE COMPOSITE MATERIAL WATER GLASS–GRAPHITE MICROPARTICLES
- СREATING OF BARCODES FOR FACIAL IMAGES BASED ON INTENSITY GRADIENTS
- PARAMETRIC OPTIMIZATION OF THE MULTIMODAL DECISION-LEVEL FUSION SCHEME IN AUTOMATIC BIOMETRIC PERSON’S IDENTIFICATION
- MERSENNE AND HADAMARD MATRICES CALCULATION BY SCARPIS METHOD
- STRESS STATE STUDY FOR PARTS OF ALUMINIUM-MAGNESIUM AND ALUMINIUM WROUGHT ALLOYS AT ROTARY SPINNING
- HIGH-RISE TEMPERATURE DEPENDENCES FOR ISOTHERMAL SPACE OBJECT OF THE SPHERICAL FORM
- METAGRAPH VISUALIZATION METHOD
- ANALYTICAL AND MODEL STUDY OF ACTIVE SEMICONDUCTOR CONVERTER IN ELECTRICAL DRIVE SYSTEMS
- COMPUTATIONAL MODELING IN THE STUDY OF GLOW DISCHARGE PHYSICAL PROCESSES IN THE AIR AT LOW PRESSURES
- STATISTICAL CHARACTERISTICS INVESTIGATION OF PREDICTION ERRORS FOR INTERFEROMETRIC SIGNAL IN THE ALGORITHM OF NONLINEAR KALMAN FILTERING
- VISUALIZATION SOFTWARE DEVELOPMENT FOR PROCEDURE OF MULTI-DIMENSIONAL OPTIMIZATION OF TECHNOLOGICAL PROCESS FUNCTIONAL PARAMETERS
- COMPONENT ARCHITECTURE OF WEB SERVICES ACCESS MANAGEMENT SYSTEM