Designing modules of system dynamics in decision support systems

A. B. Sorokin, L. Zheleznyak, D. V. Suprunenko, V. V. Kholmogorov
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引用次数: 5

Abstract

Objectives. When creating models of system dynamics, the basic construct at the design stage is the representation of the process under study in terms of a causal relationship consisting of a positive feedback loop and a negative feedback loop. The construction of a model of a dynamic environment can experience a number of difficulties in using feedback. This work shows the possibility of designing modules of system dynamics for decision-making systems based on the situational-activity approach. The study proposes the gap in knowledge about models of system dynamics to be filled with a conceptual model of an act of activity, by means of which an expert system can be implemented based on production rules. In this context, conceptual models are applied to human reasoning with reference to certain types of activity. The objective of the study was to investigate the possibility of applying the situational-active approach to designing models of system dynamics of infectious diseases based on particular representations of the conceptual structure of the act of activity.Methods. By synthesizing Bolotova's situational algorithm and Shchedrovitskiy's system-activity approach, the conceptual structure of the act of activity is presented as a methodology of the situational-activity approach. The analysis of this structure leads to the construction of a plan of processual structure and a plan of analytical relationships. The article proposed a hypothesis that the process representations describe the notation of flows and levels, and the analytical relationships implement differential equations. In order to prove this hypothesis, the subject area of infectious diseases was investigated.Results. Based on the set of these plans, a graphic image was synthesized for constructing models of system dynamics, which is identical to the diagram of flows and levels of development of the SIR process. However, the problem of constructing conceptual structures is nontrivial, complex, and laborious. Therefore, the Designer-Solver-Interpreter software suite was implemented. The software tools enable a visualization of the conceptual structures and implementation of the knowledge bases for expert models of system dynamics. It also tests the completeness and viability of the model.Conclusions. To date, there is no single conceptual structure for designing expert systems and situational and simulation dynamic models. The proposed method and software tools allow these problems to be resolved using the situational-activity method. Various types of dynamics in expert systems interact, thus confirming the reliability of knowledge in the models of system dynamics. The conceptual structures of the act of activity are the core part of designing expert systems, while he derivative process and analytical representations of the act of activity are the core part of developing modules of system dynamics.
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决策支持系统中系统动力学模块的设计
目标。在创建系统动力学模型时,设计阶段的基本结构是根据由正反馈回路和负反馈回路组成的因果关系来表示所研究的过程。动态环境模型的构建在使用反馈时会遇到许多困难。这项工作显示了基于情境活动方法为决策系统设计系统动力学模块的可能性。该研究提出用活动行为的概念模型来填补系统动力学模型的知识空白,从而使专家系统能够基于生产规则实现。在这种情况下,概念模型被应用于人类推理,参考某些类型的活动。本研究的目的是探讨应用情境主动方法设计传染病系统动力学模型的可能性,该模型基于活动行为的概念结构的特定表示。通过综合Bolotova的情境算法和Shchedrovitskiy的系统-活动方法,将活动行为的概念结构作为情境-活动方法的方法论提出。通过对这一结构的分析,可以构建过程结构规划和分析关系规划。本文提出了一个假设,即过程表示描述了流和层次的符号,分析关系实现了微分方程。为了证明这一假设,对传染病学科领域进行了调查。在这些图的基础上,合成了一个图形图像,用于构建系统动力学模型,该图形图像与SIR过程的流程图和开发层次图相同。然而,构造概念结构的问题是不平凡的、复杂的和费力的。因此,实现了设计-求解-解释器软件套件。软件工具使系统动力学专家模型的概念结构和知识库的实现可视化。验证了模型的完备性和可行性。到目前为止,还没有一个单一的概念结构来设计专家系统和情景和仿真动态模型。所提出的方法和软件工具允许使用情境-活动方法解决这些问题。专家系统中各种类型的动力学相互作用,从而确认了系统动力学模型中知识的可靠性。活动行为的概念结构是设计专家系统的核心部分,而活动行为的衍生过程和分析表示是开发系统动力学模块的核心部分。
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