Multisensor intelligent gas analyzers

The main direction of Computer Monitoring Systems Department (name before 2015) is automated systems for atmospheric monitoring. The department has worked in this direction for more than 10 years and fulfilled a large number of orders both in the region and in the country.

More than 10 employees of the department were involved in these works. Students and graduate students were also involved in this works. About my contribution to the work can be read here, or here,or here,or here, although, of course, this is only a small part of the results of the work. Automation of the experiment, design of devices, testing of the finished product - all this would not have been possible without the LabVIEW programming environment.
Some history you can read here.
It was a great time. Thank you all.

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2D CNC engraver controlled by LabVIEW

Exhibition of scientific works of students "NTTM MAN-2017". Under my leadership, students won the third place among the collective developments. The guys presented the design of 2D CNC engraver controlled by LabVIEW. We used this engraver for summer practice work in my department of computer design and modelling. And we have results! There is a some examples.

Automation of shooting a physical stationary object

The photo-shooting system for the electronic museum's materials was automated by Moskalyuk Taras - a student of the Computer Science and Technology Faculty, under the my guidance. Automation is performed using the Lego NXT technology, which significantly approximates the end of work and improves the quality of the footage. The new shooting technology allows to expand the possibilities of creating three-dimensional images, up to 180 images per model, without complicating the process of shooting and processing raw materials. Science article was written .

LabVIEW based mathematical model of building’s heat consumption with non-stationary processes

In this article , the issue of non-stationary processes heat consumption by public buildings for the energy efficiency analysis in heating buildings is being considered. It is justified that the most suitable parameter for adapting the model to the specific building’s conditions is the total heat capacity of everything that is inside the building. As a developed model adaptation’s result there are empirical dependence of total heat capacity has been established for schools. The developed model was used for building’s heating simulation with a cyclically changing load in order to establish the possibility to saving the energy. After passing the preparatory adaptation, the sufficient correspondence of numerical experiments and the practical data on measurement of temperatures are justified. The model was solved using the LabVIEW programming environment. The model is confirmed for schools in Donetsk, for each school, the number of experiments is equal to the number of info

Anton Kharitonov (Kharytonov): portfolio

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