The article presents the results of the application of geographic information systems for environmental auditing, which allows you to monitor the ecological situation on the objects, food and chemical industries and to ensure environmental safety of natural and industrial areas. The authors propose a mathematical model that performs monitoring of environmental objects. The computational experiment is performed in Matlab for classifying the soil measurement conditions. The results of the analysis and the electronic cartograms constructed on their basis are used to predict the location of the points exceeding the parasitological indices in the soil. The assessment of the condition of the soil in different districts of the Voronezh city is made with the help of the created neural networks. The results are compared with the same indicators, measured in 2017. Data is taken from the information Bulletin «Evaluation of the influence of environmental factors on the health of the population of the Voronezh region on indicators of socio-hygienic monitoring». Information was prepared by the Office of Rospotrebnadzor in the Voronezh region. A study cited in the article was conducted at the Department of information and control systems of the Voronezh state University of engineering technologies. Geographic information system was built with the help of MapInfo software product. It can be used to simulate the environmental situation and to inform about its current state with the help of cartography. Thus, the geoinformation research method reviewed in this article allows predicting the emission of harmful substances into the environment and it can be used by regulatory agencies of the state authorities to control the environmental state of the territory.

environmental audit, geographic information systems, neural network modeling, software and hardware, cartography

1. Zhurkin I.G., Shaitura S.V. Geoinformation systems. Moscow, «KUDITS-PRESS», 2009. 324 p. (in Russian).

2. Lurie I.K. Geoinformation mapping. Methods of geoinformatics and digital processing of satellite images: a textbook. Moscow, KDU, 2008. 424 p. (in Russian).

3. Information technology and computing systems: Information processing and data analysis. Software Engineering Mathematical modeling. Applied aspects of computer science; Ed. by S.V. Emelyanov. Moscow, Lenand, 2015. 104 p. (in Russian).

4. Ostroukh A.V., Nikolaev A.B. Intelligent Information Systems and Technologies: monograph. St. Petersburg, Lan, 2019. 308 p. (in Russian).

5. DeMers M.N. Geographic Information Systems. The basics. Mosow, Date +, 1999. 290 p. (in Russian).

6. Information systems and technologies; Ed. Telnova Y.F. Moscow, Unity, 2017. 554 p. (in Russian).

7. Drosou M., Jagadish H.V., Pitoura E., Stoyanovich Ju. Diversity in big data: A review. Big data. 2017. vol. 5 no 2. pp. 73–84.

8. Montali M., Rivkin A. Model checking Petri nets with names using data-centric dynamic systems. Formal Aspects of Computing. 2016. vol. 28 no. 4. pp. 615–641.

9. Kurolap S.A., Klepikov O.V., Vinogradov P.M., Prozhorina T.I. Integral assessment and GIS mapping of Voronezh. The collection of materials of the International scientific-practical seminar on medical geography and human ecology. Vladimir, 2015. pp. 18. (in Russian).

10. Kurolap S.A., Klepikov O.V., Vinogradov P.M., Prozhorina T.I. et al. Geoinformation mapping of the state of the environment of an industrial city (practical experience on the example of the city of Voronezh). Assessment and geoinformation mapping of the medical and environmental situation on the territory of the city of Voronezh: Collection of Scientific Articles. 2019. pp. 6–54. (in Russian).

11. Khaustov I.A., Kovaleva E.N. The use of geographic information systems in the logistics of enterprises. Materials of the LVII report of the scientific conference of teachers and researchers of VGUIT for 2018: at 3 h. Part 2. 2019. pp. 79–80. (in Russian).

12. Tikhomirov S.G., Avtsinov I.A., Turovsky Y.A., Surovtsev A.S. et al. Hardware-software complex for managing biotechnological systems using intelligent information technologies. Bulletin of Voronezh State University. Series: System Analysis and Information Technology. 2019. no. 3. pp. 158–165. (in Russian).