Kornienko V.D., Filippov A.Yu., Narkevich M.Yu., Logunova O.S. Classification of Hazardous Industrial Facilities Element Images

Abstract

Full Text

The purpose of the study is to develop a method for classifying images of hazardous industrial facilities based on the properties of brightness histograms to eliminate the subjective expert assessment when choosing the trajectory for processing images obtained using unmanned aerial vehicles. The paper describes a method for classifying images of hazardous industrial facilities elements to calculate the value of the classification feature as one of the decision-making elements. The results of algorithmization and testing of the software product are presented using the example of metallurgical plant facilities images. The research has been conducted from 2021 to the present, and is at the stage of implementing the results on the customer's platform. To obtain the result, statistical methods and algorithms for processing data arrays were used. The main result of the study is a method for classifying images of hazardous industrial facilities based on the properties of brightness histograms, which is universal and can be applied to images of any objects.

Keywords

images, classification method, brightness histogram, global histogram maxima, choice of processing method

Vladimir D. Kornienko Post-graduate student, Leading Engineer in the field of industrial safety expert appraisal, Power Engineering and Automated Systems Institute, Department of Computer Engineering and Programming, Research Institute “Industrial Safety”, Nosov Magnitogorsk State Technical University, Magnitogorsk, Russia, This email address is being protected from spambots. You need JavaScript enabled to view it., https://orcid.org/0000-0002-0637-5765

Aleksei Yu. Filippov Undergraduate Student, Power Engineering and Automated Systems Institute, Department of Computer Engineering and Programming, Nosov Magnitogorsk State Technical University, Magnitogorsk, Russia, This email address is being protected from spambots. You need JavaScript enabled to view it., https://orcid.org/0009-0002-2238-7667

Mikhail Yu. Narkevich D.Sc. (Engineering), Associate Professor, Department Head, Research Institute Director, Department of Design and Buildings Construction, Research Institute “Industrial Safety”, Nosov Magnitogorsk State Technical University, Magnitogorsk, Russia, This email address is being protected from spambots. You need JavaScript enabled to view it., https://orcid.org/0000-0001-6608-8293

Oksana S. Logunova D.Sc. (Engineering), Professor, Department Head, Department of Computer Engineering and Programming, Nosov Magnitogorsk State Technical University, Magnitogorsk, Russia, This email address is being protected from spambots. You need JavaScript enabled to view it., https://orcid.org/0000-0002-7006-8639

1. Yusupov O.R., Nuriddinov T.H., Yarashbayev N.A. Meth-ods of choosing threshold values for person identification based on the iris image. International Journal of Theoretical and Applied Issues of Digital Technologies. 2023, no.2(4), pp. 27-33. doi: 10.34920/IJTAIDT/vol_2023_issue_2_3

2. Kudryavtsev V.N., Shapron Zh.A. Sposob identifikacii poverhnosti morskihtechenij po ko-poljarizacionnym sput-nikovym radiolokacionnym izobrazhenijam [Method for identifying the surface of sea currents using co-polarization satellite radar images]. Patent RF, no. 2581395, 2016.

3. Rachkov L.V., Solovyev A.S. Analysis of methods for identi-fying a person based on a digital face image. Materialy mezhdunarodnoj nauchnoj konferencii "Aktualnye problem prikladnoj matematiki, informatiki i mehaniki" [Materials of the international scientific conference "Current issues in ap-plied mathematics, computer science and mechanics"]. Voro-nezh, "Velborn"LLC Publ., 2024, pp. 1600-1603. (In Russian)

4. Kotov K.A. Tokarev V.L. Determination of the feature vector in the problem of identification based on a digital image. Izvestija Tulskogo gosudarstvennogo universiteta. Tehnich-eskie nauki [Izvestiya Tula State University], 2009, no. 4, pp. 189-199. (In Russian)

5. Sultanov M.M., Shamigulov P.V., Militonjan Sh.M. Devel-opment of new methods for assessing the technical condition of power transmission lines using digital image processing. Nadezhnost i bezopasnost jenergetiki [Safety & Reliability of Power Industry], 2022, no. 4(15), pp. 284-292. (In Russian) doi: 10.24223/1999-5555-2022-15-4-284-292

6. Grigoryev A.V., Kochegarov I.I., Jurkov N.K. Principles of monitoring the technical condition of moving mechanisms based on the analysis of the dynamics of vibration blurring of a round mark image. Vestnik Sankt-Peterburgskogo gosu-darstvennogo universiteta grazhdanskoj aviacii [Bulletin of the St. Petersburg State University of Civil Aviation], 2020, no. 2(27), pp. 119-131. (In Russian)

7. Sadyhov R.H., Kuchuk S.A. Video surveillance systems: status, problems and technical means of image processing. Informatika [Informatics], 2013, no. 3(39), pp. 34-46. (In Russian)

8. Lyong K L., Kuvajskova Ju.E. Forecasting and assessment of the state of technical objects based on cylindrical image models. Avtomatizacija processov upravlenija [Automation of Control Processes], 2022, no. 2(68), pp. 90-97. (In Russian). doi: 10.35752/1991-2927-2022-2-68-90-97

9. Hirai R., Tanizawa A., Mori S., Okaya K. Ustrojstvo dlja obrabotki medicinskih izobrazhenij, sposob obrabotki medicinskih izobrazhenij i nositel dannyh [Device for pro-cessing medical images, method for processing medical im-ages and data carrier]. Patent RF, no. 2762146, 2021.

10. Sergeev D.I., Andreev A.E., Drobintseva A.O., Cenevska S., Kukavica N., Drobintsev P.D. Development of automated computer vision methods for cell counting and endometrial gland detection for medical images processing. Proceedings of the Institute for System Programming of the RAS. 2020, no. 3(32), pp. 119-130. doi: 10.15514/ISPRAS-2020-32(3)-11

11. Kildeeva L.H., Sharifullin S.S. Centralnyj arhiv medicinskih izobrazhenij i medicinskih dannyh [Central Archive of Med-ical Images and Medical Data]. Computer program RF, no 2016616275, 2016.

12. Lepehina T.K. Study of Leonardo da Vinci's paintings using histograms of optical image brightness. Nauka nastojashhego i budushhego [Science of the present and future], 2023, vol. 2, pp. 42-45. (In Russian)

13. Posohov I.A. Metod i algoritmy obrabotki izobrazhenij sernyh otpechatkov v sisteme ocenki kachestva nepreryvnolitoj zagotovki. Kand. Diss. [Method and algorithms for pro-cessing images of sulfur prints in the system for assessing the quality of continuously cast billets. Kand. Diss.]. Cherepovets, 2017. 159 p. (In Russian)

14. Garbar E.A. Metod i algoritmy obrabotki informacii v siste-mah opticheskogo kontrolja dlja identifikacii defektov poverhnosti listovyh materialov. Kand. Diss. [Method and algorithms for processing information in optical inspection systems for identifying surface defects in sheet materials. Kand. Diss.]. Cherepovets, 2023. 201 p. (In Russian)

15. Mihajljuk Ju.P., Nacharov D.V. Hardware implementation of the method for increasing the distinguishability of objects in images by normalizing the brightness histogram. Vestnik Povolzhskogo gosudarstvennogo tehnologicheskogo univer-siteta. Serija: Radiotehnicheskie i infokommunikacionnye sistemy [Bulletin of the Volga Region State Technological University. Series: Radio engineering and infocommunication systems], 2023, no. 2 (58), pp. 27-43. (In Russian). doi: 10.25686/2306-2819.2023.2.27

16. Narkevich, M.Ju. Razvitie metodologii sozdanija sistemy menedzhmenta kachestva metallurgicheskogo predprijatija, jekspluatirujushhego opasnye proizvodstvennye obyekty, na osnove prikladnoj cifrovoj platformy. Doct. Diss. [Develop-ment of a methodology for creating a quality management system for a metallurgical enterprise operating hazardous production facilities based onan applied digital platform. Doct. Diss.]. Magnitogorsk, 2023. 332 p. (In Russian)

17. Kornienko V.D., Ezhov G.A., Narkevich M.Ju., Logunova O.S. Classification of initial data for an intelligent system of expert assessment of visually determinable defects and damages. Vestnik Cherepoveckogo gosudarstvennogo universiteta [Cherepovets State University Bulletin], 2022, no. 6 (111), pp. 53-64. (In Russian). doi: 10.23859/1994-0637-2022-6-111-4

18. Kornienko V.D., Narkevich M.Ju., Logunova O.S. Method-ology for collecting and processing information to monitor the condition of the territory, buildings and structures at haz-ardous production facilities of a metallurgical enterprise. El-ektrotehnicheskie sistemy i kompleksy [Electrotechnical sys-tems and complexes], 2022, no. 4 (57), pp. 76-87. (In Rus-sian). doi: 10.18503/2311-8318-2022-4(57)-76-87.

19. Filippov A.Yu., Logunova O.S., Narkevich M.Yu., Zabi-tov R.M. Klassifikator izobrazhenij, poluchennyh s pomoshhyu bespilotnyh letatelnyh apparatov [Classifier of images obtained using unmanned aerial vehicles]. Computer program RF, no. 2023665365, 2023.

 

Kornienko V.D., Filippov A.Yu., Narkevich M.Yu., Logunova O.S. Classification of Hazardous Industrial Facilities Element Images. Elektrotekhnicheskie sistemy i kompleksy [Electrotechnical Systems and Complexes], 2024, no. 3(64), pp. 85-92. (In Russian). https://doi.org/10.18503/2311-8318-2024-3(64)-85-92

Details
Hits: 25