S.Yu. Zhuleva – Senior Lecturer, Department «Computational and applied mathematics»,  V.F. Utkin Ryazan State Radio Engineering University

E-mail: zhuleva.svetlana@bk.ru

A.V. Kroshilin – Dr.Sc. (Eng.), Associate Professor, Professor, Department «Computational and applied mathematics», V.F. Utkin Ryazan State Radio Engineering University; Corresponding Member of the Russian Academy of Natural Sciences

E-mail: alfzdrprog@mail.ryazan.ru

S.V. Kroshilina – Ph.D. (Eng.), Associate Professor, Department «Computational and applied mathematics», V.F. Utkin Ryazan State Radio Engineering University; Professor of the Russian Academy of Natural Sciences

E-mail: asak_kasa@mail.ru

A.N. Pylkin – Dr.Sc. (Eng.), Professor, Department «Computational and applied mathematics»,  V.F. Utkin Ryazan State Radio Engineering University; Honored Worker of the Higher School of the Russian Federation

In article activity of medical institutions in modern market conditions which is scientific base of justification of adoption of management decisions in tasks of management of medical material flows is considered. At the same time there is a problem of automation of the analysis of functioning of the medical institution allowing to estimate precisely uncertainty of a situation with the help of modern methods of a research. The analysis of tasks of management of medical material flows (especially in the field of load distribution of medical personnel) allowed to draw a conclusion on requirement of consolidation of all standard approaches to formation of the indistinct cognitive map (ICM) and on this basis to develop own NKK. In article the tasks are set: to create requirements to the developed NKK; to define a form of a graphic notation of the developed indistinct cognitive map; to realize representation of interconditionality of entrance concepts for the weekend on the basis of NKK in medical subject domains; to present to feature of use of indistinct cognitive maps in the course of the research of medico-technological process; to offer a way of modeling of medical material flows (load distribution of medical personnel).Application of universal indistinct cognitive maps at management of medical material flows in medical institutions is covered in article. The list of the main requirements to the developed NKK and the principle of its formation is provided. Graphical representation of NKK and realization of an indistinct logical conclusion on a basis an algorithm Mamdani methods of automation of process of distribution of medical loading are considered. The algorithm of accounting of interconditionality of concepts is presented and also the possibility of creation of model of real medical subject domains on the basis of NKK is proved.

Application of the cognitive analysis in tasks of management of medical material flows in the intellectual systems of medical appointment is as a result proved. The main attention was paid to development of indistinct cognitive maps for modeling of medical subject areas and on their basis to the solution of a problem of load distribution of medical personnel.

Are considered the feature of development of the indistinct cognitive map which is uniting in itself all basic properties of the existing cognitive maps, and having great opportunities at creation of models of medico-technological processes of the complex systems of medical appointment describing the medical MISSILE DEFENCE for their more detailed processing.

The list of the main requirements to the offered NKK which allows to use the theory of indistinct sets at construction and the analysis of structure is submitted. At the heart of the developed card indistinct sets represent concepts and interconditionality between concepts which display type of distribution of interference of concepts.

The description of formation of the indistinct cognitive map of medico-technological process in the form of indistinct network of interference of concepts is provided. Graphical representation of the developed indistinct cognitive map is illustrated. It is defined that in the offered NKK of medical subject domain an indistinct logical conclusion is carried out on an algorithm Mamdani. Besides, the description of creation of models of real medical subject domains taking into account changes in time is offered.

1. Zhuleva S.Yu., Kroshilin A.V., Kroshilina S.V. Podderzhka prinyatiya reshenij v zadachah raspredeleniya nagruzki medicinskih rabotnikov na osnove metodov iskusstvennogo intellekta // Biomedicinskaya radioelektronika. 2018. № 8. S. 54–59.
2. Pylkin A.N., Tishkina V.V., Kroshilin A.V. Application of Fuzzy Logic in Decision Support System for Analysis of Condition Enterprises // 2018 International Russian Automation Conference (RusAutoCon 2018), September 9th–16th. 2018, Sochi. Russian Federation.
3. Kroshilina S.V., Kroshilin A.V., Tishkina V.V., Pylkin A.N. Designing a System for Analyzing the Activities of Enterprises Using Artificial Intelligence Methods / 2018 7th Mediterranean Conference On Embedded Computing (Meco), 11–14 June 2018. Budva, Montenegro. P. 157–160.
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5. Kroshilin A.V., Kroshilina S.V., Doan D.H., ZHuleva S.YU., Tishkina V.V. Formirovanie naborov variantov techeniya bolezni metodom nechetkoj klasterizacii v sistemah podderzhki prinyatiya medicinskih reshenij // Biomedicinskaya radioelektronika. 2017. № 7. S. 60–66.
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