Control Systems and Computers, N6, 2016, Article 1

Upr. sist. maš., 2016, Issue 6 (266), pp. 3-15.

UDC 381.3

Palagin Olexander V., Academician of National Academy of Sciences of Ukraine, V.M. Glushkov Institute of Cybernetics of National Academy of Sciences of Ukraine, Glushkov ave., 40, Kyiv, 03187, Ukraine, E-mail: palagin_a@ukr.net

An Introduction to the Class of the Transdisciplinary Ontology-controled Research Design Systems

Introduction. The research design systems (RDS) hold a special place among information technology systems. Their operation is based on clearly formulated objectives, regulations and criteria in feedback mode with external environment deepening the knowledge in the subject field during the design process.

The purpose. The basis of designing with the use of RDS is the system integration technology, the essence of which is building the higher-level components of the projected object from the lower-level components and systematizing the typical project solutions. It is expected that this class of systems will be built as ontology-driven ones in the conditions of partially defined information about the subject area and about the subject of design. It is considered a good practice to develop and apply such systems while implementing the complex transdiscipline projects when there are no efficient methods to integrate knowledge of different subject fields, which could realize the processes of building a stable cluster for convergence of scientific disciplines and technologies with high-level synergism.

Result. The concept of the virtual research environment was formulated as a network tools complex, information analytical and administrative subsystems that accompany the process of building the new equipment and technologies at all stages of the life cycle. The examples of promising virtual systems include the research centers and labs.

The conclusion. Accordingly, the systems of research design built on the noospheric concept basis (such as transdisciplinarily, evolutionism, ontological control, multi-level representation of knowledge, virtuality) open the way for great opportunities  for their implementation in scientific research.

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Keywords: transdisciplinary, ontological control, virtual structures, developing systems.

  1. Палагин А.В. Проблемы трансдисциплинарности и роль информатики. Кибернетика и системный анализ. 2013. n 5. С. 3–13.
     2. Исследовательское проектирование в кораблестроении на основе гибридной экспертной системы / А.В. Алексеев, Н.П. Слядзь, Р.К. Хабибуллин и др. Программные продукты и системы. 1994. n 1. С. 38–45.
     3. Филиппович Ю.Н. Метафорическое проектирование информационных технологий и систем. Интеллектуальные технологии и системы: Сб. статей. 2. М. 1999. С. 7–30.
     4. Палагин А.В. Архитектура онтологоуправляемых компьютерных систем. Кибернетика и системный анализ. 2006. n 2. С. 111–124.
     5. Палагин А.В., Яковлев Ю.С. Системная интеграция средств компьютерной техники. Винница: УНИВЕРСУМ, 2005. 680 с.
     6. Палагин А.В. Современные информационные технологии в научных исследованиях. Искусственный интеллект. 1999. n 2. С. 20–33.
     7. Палагин А.В., Сергиенко И.В. Виртуальные научно-инновационные центры: концепция создания и перспективы развития. УСиМ. 2003. n 3. С. 3–8.
     8. Палагин А.В. Разработка информационного «электронного комбайна». Науковедение. 1995. n 3–4. С. 6–22.
     9. Стрижак О.Е.,  Трофимчук А.М.,  Цурика Л.Ю. Екологічна безпека та природокористування. 2014. 16. С. 128–137.
     10. Палагин А.В. Онтологическая концепция информатизации научных исследований. Кибернетика и системный анализ. 2016. n 1. С. 3–9.

Received 03.11.2016