ABOUT COMPLEX APPROACH TO MODELLING OF TECHNOLOGICAL MACHINES FUNCTIONING

Problems arise in the process of designing, production and investigation of a complicated technological machine. These problems concern not only properties of some types of equipment but they have respect to regularities of control object functioning as a whole. A technological machine is thought of as such technological complex where it is possible to lay emphasis on a control system (or controlling device) and a controlled object. The paper analyzes a number of existing approaches to construction of models for controlling devices and their functioning. A complex model for a technological machine operation has been proposed in the paper; in other words it means functioning of a controlling device and a controlled object of the technological machine. In this case models of the controlling device and the controlled object of the technological machine can be represented as aggregate combination (elements) of these models. The paper describes a conception on realization of a complex model for a technological machine as a model for interaction of units (elements) in the controlling device and the controlled object. When a control activation is given to the controlling device of the technological machine its modelling is executed at an algorithmic or logic level and the obtained output signals are interpreted as events and information about them is transferred to executive mechanisms.

The proposed scheme of aggregate integration considers element models as object classes and the integration scheme is presented as a combination of object property values (combination of a great many input and output contacts) and combination of object interactions (in the form of an integration operator). Spawn of parent object descendants of the technological machine model and creation of their copies in various project parts is one of the most important means of the distributed technological machine modelling that makes it possible to develop complicated models of technical devices still at the project stage. 

1. Dobrolyubov, A. I., Akunovich, S. I. (1974) Designing Automation of Technological Machine Control Systems. ?oscow, Mashinostroeniye. 224 p. (in Russian)

2. Akunovich, S. I., Goncharov, A. A., Petrenko, Yu. N. (2006) Discrete Logic Control Systems of Technological Machines. Minsk, Unipak. 336 p. (in Russian).

3. Goncharov, A. A. (2006) Functional Aggregative Model of Logical Control System for Electric Drives of Technological Complex. Izvestyia Vysshikh Uchebnykh Zavedenii i Energeticheskikh Ob’edinenii SNG – Energetika [Proceedings of CIS Higher Education Institutions and Power Engineering Associations – Energetika], 3, 54–61 (in Russian).

4. Buslenko, N. P. (1978) Modeling of Complex Systems. Moscow, Energia. 328 p. (in Russian).

5. Sovetov, B. Y?., Buslenko, S. A. (2001) Modeling of Systems. Moscow, Vysschaya Shkola. 376 p. (in Russian).

6. Goncharov, A. A. (2006) Resident and Distributed Models of Technological Machine Control Systems. Izvestyia Vysshikh Uchebnykh Zavedenii i Energeticheskikh Ob’edinenii SNG – Energetika [Proceedings of CIS Higher Education Institutions and Power Engineering Associations – Energetika], 2, 49–52 (in Russian).

7. Petrenko, Yu. N. (2002) Control Systems for Industrial Complexes. Minsk: Publishing House Pion. 300 p. (in Russian).

8. Goncharov, A. A. (2001) About one Approach to Modeling of Control Device Logical Structure. Informatization of Educational Processes: Automation of Control, Technology, Distance Education. Intern. Scientific and Practical. Conf. Collected Articles. Part 1. Minsk, MGVRK [Minsk State Higher Radio Technical College], 229–241 (in Russian).

9. Zaytsev, D. A. (2004) Mathematical Models of Discrete Systems. Odessa: ONAS [Odessa National Academy of Telecommunications Named After A. S. Popov]. 40 p. (in Russian).

10. Shalyto, A. A. (2001) Logic Control and “Reactive” Systems: Algoritmisation and Programming. Automation and Remote Control, 62 (1), 1–29.

11. Akunovich, S. I., Goncharov, A. A., Poplavsky, V. S. (2003) Object-Event Modeling of Control Algorithms and Executive Mechanisms for technological Machines. Educational Technologies in Specialist Training. Intern. Scientific and Practical. Conf. Collected Articles. Part. 4. Minsk, MGVRK [Minsk State Higher Radio Technical College], 9–15 (in Russian).