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Authors

Makarovskikh T.

Degree
Dr. Sci. (Phys.-Math.), Associate Professor, Professor of Computer Science Department, South Ural State University
E-mail
Makarovskikh.t.a@susu.ru
Location
Chelyabinsk, Russia
Articles

On the experience of computer graphics lessons using free software

The authors of the paper consider their experience of free software using for studying the computer graphics (photo editing, pictures editing, animation, video). The created Linux distributive is oriented on teaching and studying graphics and allows to organize some lessons for schoolchildren at their summer vacation at a summer resort. A list of software packages used for installation is determined either for user computers or for the server station. Each program is chosen due to some features of a system constructed. On the base of list for installer CD and standard lists for Live-CD the Live-CD packages were lined up. The scripts finishing off the Live-CD to its optimal functioning are created. The good studying and teaching results are achieved. The Live-CD and installer-CD are created. They consist of all necessary software, methodical materials and the summer course program. The Live-CD is a present for all participants of summer lessons. The received experience allows recommending the created materials for facultative lessons. The usage of education technologies on the base of computer and multimedia facilities rises the level of understanding the future professional activities and contributes to the success of socialization.
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Forecasting of crop yields using the quasi-linear equation of n-factor autoregression

Both in Russia and in other countries, scientists note the need development of artificial intelligence methods for precision farming. However, the software nowadays used for this purpose is only developing and sometimes not released for sale, and the methods stated in individual articles use standard approaches, which leads to significant errors. Another reason is a non-trivial way of obtaining initial data, in particular, as a result of the analysis of satellite images, which is a rather laborious work and is possible only if there is a database of the objects under study with their specified geographical coordinates. The article discusses the development of a system for predicting the yield of agricultural land using satellite images. The system includes both classical methods (for example, the parabolic regression discussed in the article) and approaches developed by the authors to identify the parameters of the quasi-linear equation of n-factor autoregression. Despite the presence on the market of a fairly large number of software products for precision farming, many of the existing software and approaches are not intended to provide data for further analysis by specialists who are not employees of the developer company. As for our system, the collection and subsequent analysis of aerial photography data is carried out, which consists in building a model of the dynamics of the vegetation index, which is subsequently used to predict the yield of the field in the following periods. The proposed system is extensible, i. e., it allows connecting additional modules for analysis and inclusion in the analysis of additional factors that affect the indicator under study. The article describes the data presentation method, the process of calculating vegetation indices for a certain date, and also provides mathematical approaches to modeling the vegetation process using high-quality deterministic mathematical models and predicting the next season’s crop yield and production costs. Read more...