HIGH TECH IN EARTH SPACE RESEARCH

Multilevel computer model of technological process production of led lamps

Soldatkin V.S.

The technological process of production of modern LED lamps based on LED emitting elements is considered. Its main stages and technological operations are highlighted. Three levels of process control are defined: operational, tactical and strategic. The aim of the study is to build a computer modes of the tactical level of technological process control. The tasks of research of technological processes are formulated, for the automation of which computer model can be applied.

The main attention is paid to the problem of prototyping the process control algorithms for the production of LED lamps, as currently there are no software tools or automating their solution. Based on the construction of its functional model in the form of an IDEF-0 diagram, the interpretation of this methodology into the format of the method of multi-layers component circuit, the software implementation of whit hos a multi-layer computer simulation environment, is proposed. It allows you to create multi-layers computer models od production modules that implement the tactical level of control of technological processes on the interconnected object, logical and visual layers. At its object layer computer models of a controlled technological equipment. The logic level contains the algorithms of the functioning of the controller, formed in the format of the graphical language control of mechanisms. At the visual level, there ate tools for visualization of the simulation result and the interactive control bodies of the values of the model parameters and the course of the computational experiment. A multi-level computer model of a generalized production module, which constitutes the tactical level of control of technological processes, is formed, and the structure and solution vector of the physical-chemical unit, which is a generalized model level of the multi-layer computer model, ate determined. The question ate considered and the instrumental means of uniting multi-layers models of production modules into a production conveyor are presented. A computer model of the production module “Soldering of the power supply”, which is a model of the object layer of a multilayer model, is formed, and a scenario of the functioning of its controller, formed at the logic layer of a multilayer model, is presented.

Editorial board

Bobrowsky V.I.
(Ph.D., Associate Professor, Head of Department of "INTELTEH")

Borisov V.V.
(Ph.D., Professor, Actual Member of the Academy of Military Sciences, Professor, Department of Computer Science of MPEI)

Budko P.A.
(Ph.D., Professor, Department of Technical communication and automation in S.M. Budjonny Military Academy of the Signal Corps)

Budnikov S.A.
(Ph.D., associate professor, Actual Member of the Academy of Education Informatization, Head of the automated control systems Department in Russian Air Force Military Educational and Scientific Center “Air Force Academy named after Professor N.E. Zhukovsky and Y.A. Gagarin”)

Verhova G.V.
(Ph.D., Professor, Head of Department of Automation communication companies In the Bonch-Bruevich Saint Petersburg State University of Telecommunications)

Goncharevsky V.S.
(Ph.D., Professor, Honored Worker of Science and Technology of the Russian Federation, Professor of technologies and technical support and maintenance of the automated control systems in Military Space Academy of A.F. Mozhaysky)

Komashinskiy V.I.
(Ph.D., Professor, professor of processing and transmission discrete messages in the Bonch-Bruevich Saint Petersburg State University of Telecommunications)

Kirpanev A.V.
(Ph.D., Associate Professor, Head of JSC "Scientific Production Enterprise "Radar MMS")

Kurnosov V.I.
(Ph.D., Professor, Academician of Academy of Sciences of the Arctic, Academician of the International Academy of Informatization, International Academy of defense, security, law and order, corresponding member of the Academy of Natural Sciences, Senior Researcher" Open Joint Stock Company "Scientific Research Institute "Rubin")

Manuilov Y.S.
(Ph.D., Professor, Department of automated control systems space complexes in Military Space Academy of A.F. Mozhaysky)

Morozov A.V.
(Ph.D., Professor, Actual Member of the Academy of Military Sciences, Head of the Department of automated command and control systems in Military Аcademy of troops of antiaircraft defense)

Moshak N.N.
(Ph.D., Associate Professor, head of the department of "INTELTEH")

Prorok V.Y.
(Ph.D., Professor, professor of automatic control systems in Military Space Academy of A.F. Mozhaysky)

Semenov S.S.
(Ph.D., associate professor, professor of technical communication and automation in S.M. Budjonny Military Academy of the Signal Corps)

Sinicyn E.A.
(Ph.D., Professor, Head of the Research Department of JSC "The All-Russian research institute of radio equipment")

Shatrakov Y.G.
(Ph.D., Professor, Honored Worker of Science, Scientific Secretary of JSC "The All-Russian research institute of radio equipment")