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Article title STRUCTURAL FEATURES OF THE ORGANIZATION OF GATHERING AND PROCESSING OF THE INFORMATION OF SENSORS IN THE DISTRIBUTED INFORMATION MICROCOMPUTER SYSTEMS OF REAL TIME
Authors O.N. Pyavchenko
Section SECTION I. SYSTEMS AND NETWORKS
Month, Year 05, 2012 @en
Index UDC 621.05.1
DOI
Abstract In the given work results of researches and workings out of processes of information collection of sensors of physical variables and the organization of processes of processing of this information in the distributed information microcomputer systems are presented. Situations when use of a way of serial analogue-digital conversions of signals of sensors and cyclic gathering of their results leads to occurrence is inadmissible the big error are considered. In such cases it is recommended to apply a way of serial gathering of results of parallel analogue-digital conversions of signals of sensors. Versions of serial and parallel-serial schemes of process of gathering and information processing of sensors are presented. It is shown that application of the parallel-serial scheme of the decision of problems provides multiple growth of productivity of the distributed information microcomputer systems at increase in number of parallel branches.

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Keywords The distributed information microcomputer systems; sensors of physical variables; the serial scheme; the parallel-serial scheme.
References 1. Денисенко В.В. Компьютерное управление технологическим процессом, экспериментом, оборудованием. – М.: Горячая линия – Телеком, 2009. – 608 с.
2. Пьявченко О.Н., Клевцов С.И. Интеллектуальные микропроцессорные модули сбора и обработки информацию. – Берлин: LAP LAMBERT, 2011. – 102 с.
3. Пьявченко О.Н. Модули и конфигурации последовательных распределенных систем сбора и обработки информации датчиков. Труды Конгресса по интеллектуальным системам и
информационным технологиям «IS&IT’11»: В 4 т. – М.: Физматлит, 2011. – Т. 1. – С. 541-549.
4. Пьявченко О.Н. Распределение системы сбора и обработки информации датчиков динамических объектов // Известия ЮФУ. Технические науки. – 2011. – № 5 (118). – С. 9-15.

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