http://dspace.nbuv.gov.ua:80/handle/123456789/124943 2026-04-08T15:43:59Z http://dspace.nbuv.gov.ua:80/handle/123456789/131339 Наши авторы 2017-01-01T00:00:00Z http://dspace.nbuv.gov.ua:80/handle/123456789/131338 Конфліктна взаємодія повітряних суден при запобіганні загроз зіткнення Павлова, С.В.; Волков, О.Є. Запропоновано новий метод вирішення конфліктних ситуацій повітряних суден з визначенням пріоритетності кожного з них на основі побудови областей керованості та діаграм Венна. Метод спрямований на гарантований рівень безпеки при вирішенні розряджених конфліктних ситуацій повітряних суден в масштабі реального часу.; Предложен новый метод разрешения конфликтных ситуаций воздушных судов с определением приоритетности каждого судна на основе построения областей управляемости и диаграмм Венна. Метод направлен на обеспечение уровня безопасности при разрешении разряженных конфликтных ситуаций воздушных судов в масштабе реального времени.; Purpose: The proposed work is devoted to a new method for resolving conflict situations of aircraft with the prioritization of each aircraft based on the construction of control areas and Venn diagrams. This method is aimed at providing a guaranteed level of security in the resolution of depleted conflict situations of aircraft in real time. Methods: The proposed technology is based on a new method for resolving aircraft conflicts using Venn diagrams and determining the areas of control of each aircraft. Results: The introduction of a new technology to resolve aircraft conflicts in real time and the implementation of appropriate algorithms of such technology will ensure an effective increase in the level of safety of flights. Discussion: The new technology proposes a method for determining the areas of controllability of aircraft, which characterize the capabilities of the aircraft to change the parameters of motion at a single time and allow us to characterize the nonlinearity of the behavior of the aircraft. For the universality of the proposed method, the developed rules for the divergence of the aircraft in a dynamic conflict situation are proposed. The rules for clarity are constructed according to the pattern of Venn diagrams. 2017-01-01T00:00:00Z http://dspace.nbuv.gov.ua:80/handle/123456789/131337 Технологические аспекты подготовки учебного контента для поддержки массового непрерывного обучения Антонюк, Я.М.; Прус, Т.Н. Изложены принципы использования в системе непрерывного образования мультимедийных технологий на примере технологий виртуальной реальности. Выполнена базовая разработка методики создания объектов виртуальной реальности, схема и базовое описание соответствующих лабораторий. Показаны примеры использования объектов виртуальной реальности в структуре учреждений НАН и МОН Украины.; Подано принципи використання в системі безперервної освіти мультимедійних технологій на прикладі віртуальної реальності. Виконано базову розробку методики створення об'єктів віртуальної реальності, схема та базовий опис відповідних лабораторій. Показано приклади використання об'єктів віртуальної реальності в структурі установ НАН і МОН України.; Introduction. Modern education is based on the paradigm of mass life-long learning, which requires the integration of promising information and communication technologies and classic hardware-software solutions for the production of the desktop applications. The pace of development of modern technologies is ahead of the opportunity not only to use them, but, sometimes, and to notice their appearance. In the flow of newest hardware, software and methodologies, there are those that can be useful for the production of traditional educational content. Here we considered the problems of preparing such incremental solutions. Note that the educational content is a collective concept and includes not only the problems of preparing quality textbooks, but also a significant number of other educational applications: educational multimedia, virtual reality technologies for educational purposes, and others. Thus, the current problems of creating the objects of virtual reality (VR) are described. Purpose. The state of the technologies of life-long education in Ukraine is in the conditions of possible using the objects of virtual reality in any forms of education of the learning process without specifying the requirement of the subject area. The task of the research is to develop a universal methodology for using BP facilities in the institutions of Ministry of Education and Science of Ukraine. Methods. The principle method of creating VR objects and a basic description of VR-laboratories are shown. Results. The urgency of this task underscores the state of this field of the public sector at all levels of accreditation. The adoption of the draft “Law on Education” forms the actual principles of the educational policy and is designed to release the consciousness of the trainees and to prepare them for the adequate perception of the subjects to the depth necessary to acquire the practical skills that are realized in the modern world, in the conditions of the developing economy of the country. In addition to the social cause, the need to fill this niche in terms of IT progress is evident, which will determine the development of the methodological and technological base of any institution of NAS and MES of Ukraine. 2017-01-01T00:00:00Z http://dspace.nbuv.gov.ua:80/handle/123456789/131336 Объектно-ориентированная архитектура информационной системы реконструкции генных регуляторных сетей Фефелов, А.А.; Литвиненко, В.И.; Таиф, М.А.; Вороненко, М.А. Описана архитектура информационной системы, предназначенной для решения задач реконструкции генных регуляторных сетей, в основу которой положен объектно-ориентированный подход, определяющий ее открытость, универсальность и расширяемость. Предложен сценарий реконструкции, в котором осуществляется оптимизация пространства поиска значений параметров S-системы.; Описано архітектуру інформаційної системи, призначеної для вирішення завдань реконструкції генних регуляторних мереж, в основу якої закладено об'єктно-орієнтований підхід, який визначає її відкритість, універсальність і розширюваність. Запропоновано сценарій реконструкції, в якому проводиться оптимізація простору пошуку значень параметрів S-системи.; Introduction. Insufficient level of understanding of the nature of regulation and functional mechanisms of gene regulatory networks does not allow to build their mathematical models, based on the fundamental laws of component’s interaction. Now, many different models and methods of gene regulatory reconstruction are developed, which have the advantages and disadvantages. At the choice of descriptive model it is necessary to consider the fact, that mathematical models, as a rule, have their own structure and a number of parameters, which need to be identified. A large number of computational methods are developed, for structuralparametric model’s identification. The majority of them have increased resistance to noise and uncertainty contained in the initial data. The presence of this property is real for the selection of a computational method, used for solving the reconstructing problem of the gene regulatory network based on the gene expression data. Purpose. The purpose of this work is the development of the information system architecture for the gene regulatory network reconstruction, based on the object-oriented approach. Method. The authors used the method of object-oriented design for the developing of this information system. Results. The architecture of the information system for the gene regulatory networks reconstruction, based on the objectoriented approach is proposed. The S-system is applied as a computational model. The parameters and structure are calculated using the clonal selection algorithm. The gene expression profiles are used as an input data. The developed system includes four basic components: the data source, the model, the solution converter and the identification method. The scenario of solving gene network reconstruction problem is developed. In addition, an iterative algorithm for the space optimization search of the computational model parameter values is implemented in this scenario. Conclusion. The developed architecture is open, so that allows to add or replace the separate components by expansions. Further researches suggest to expand the range of used models, such as radial-base network model and wavelet-neural network model, as well as the system for the gene expression programming. In the future, we are planning to implement the addition of new evolutionary algorithms to the information system. In such a way, the work of the evolutionary operators by the development of new scenarios for solving the gene regulatory networks reconstruction problems can be improved. 2017-01-01T00:00:00Z