About the application of multispectral visualization in earth remote sensing

The issues of using multispectral imaging in remote sensing of the Earth, both using satellite images and using unmanned aerial vehicles (UAVs), are discussed. The use of multispectral images for assessing reforestation, the effectiveness of herbicide use, reconstruction of archaeological sites, environmental monitoring of the surface of reservoirs by monitoring the extent of the spread of blue-green algae, and recognition of the road network in forestry is described. The feasibility of using UAVs to survey individual areas of the terrain instead of obtaining images from satellites is assessed. The results of increasing the information content of multispectral images obtained using various processing options are presented. Based on the results of the analytical review, trends in the development of methods for improving the visual quality of multispectral images obtained during monitoring of the earth's surface are formulated. The disadvantages of the considered methods for increasing the information content of multispectral images are indicated, and improvements are proposed that can improve the methods used.

1. Sharak D. S., Mikhnyonok E. I., Shein A. S., Khizhnyak A. V. [Combining images obtained from data from sources of different spectral ranges] // Doklady Belorusskogo gosudarstvennogo universiteta informatiki i radioèlektroniki (BGUIR). 2017. 3(105). 45-51.

2. Kornyshev N. P., Lifar A. V., Lyakhovitsky E. A., Rodionov I. S., Tsypkin D. O., Shein G. M. Televizionnyye i optiko-elektronnyye metody issledovaniya istoricheskikh bumag [Television and optical-electronic methods for studying historical papers] // Systems and television and radio communications. 2013. 1-2. 153-158.

3. Kornyshev N. P. Novyye vozmozhnosti televizionnykh spektral'nykh sistem [New possibilities of television spectral systems] // Photography. Image. Document. 2015. 6(6). 89-93.

4. Zubarev Yu. B., Sagdullaev Yu. S., Sagdullaev T. Yu. Spektrozonal'nyye metody i sistemy v kosmicheskom televidenii [Multi-wave-zones methods and systems in space TV]// Voprosy radioelektroniki. Seriya: Tekhnika televideniya. 2009. 1. 47-64.

5. Kornyshev N. P., Kalitov M. A., Senin A. S. Primeneniye televizionnykh spektrozonal'nykh metodov pri issledovanii muzeynykh ob"yektov [Application of television spectrozonal methods in the study of museum objects] // 15th International Conference “Television: Image Transmission and Processing”, June 26-27, 2018: conference proceedings. Saint-Petersburg: LETI, 2018. P. 105-107.

6. Sagdullaev Yu. S., Kovin S. D. Formirovaniye i sovmestnaya obrabotka signalov spektrozonal'nykh izobrazheniy [Formation and joint signal processing of multispectral images] // Voprosy radioelektroniki. Seriya: Tekhnika televideniya. 2015. 5. 44-57.

7. Sagdullaev Yu. S., Sagdullaev T. Yu. Osnovy postroyeniya informatsionnoizmeritel'nykh sistem spektrozonal'nogo televideniya [Fundamentals of constructing information-measuring systems for spectrozonal television] // Voprosy radioelektroniki. Seriya: Tekhnika televideniya. 2018. 4. 59-67.

8. Sagdullaev T. Yu., Sagdullaev Yu. S. Integral'no-differentsial'nyy metod formirovaniya signalov v sistemakh ob"yemnogo spektrozonal'nogo televideniya [Integrated and differential method of formation of signals in systems of volume multispectral television] // 13th International Conference “Television: Image Transmission and Processing, June 29-30, 2016: conference proceedings. Saint-Petersburg: LETI, 2016. P. 247-251.

9. Vaniev A. A., Kalitov M. A., Kornyshev N. P. O povyshenii vizual'nogo kachestva differentsial'nykh spektrozonal'nykh izobrazheniy [Improvement of images obtained by the method of differential multispectral imaging] // Voprosy radioelektroniki. Seriya: Tekhnika televideniya. 2019. 4. 118-123.

10. Kalitov M. A., Kornyshev N. P. Patent No. 2679921 of the Russian Federation, IPC H04N 7/18 (2006.01). Sposob formirovaniya tsifrovykh spektrozonal'nykh televizionnykh signalov [Method of forming digital spectrozonal television signals]: No. 2018116286, 2018.04.28, application 2018.04.28: publ. 2019.02.14 / patent holder JSC “ELSY”.

11. Kalitov M. A., Kornyshev N. P. Komp'yuternoye modelirovaniye mul'tiplikativnogo metoda formirovaniya tsifrovykh spektrozonal'nykh izobrazheniy [Accuracy increase of the differential multispectral imaging method] // Vestnik NovSU. 2020. 2(118). 76-78. DOI: 10.34680/2076-8052.2020.2(118).76-78

12. Borisov D.I., Erganzhiev N.A., Kalitov M.A., Kornyshev N.P. Patent No. 2731880 of the Russian Federation, IPC H04N 7/18 (2006.01). Sposob formirovaniya tsifrovykh spektrozonal'nykh televizionnykh signalov [Method for generating digital spectrum-zonal television signals]: No. 2020102199, 2020.01.20, application 2020.01.20: publ. 2020.09.08 / patent holder Federal State Budgetary Educational Institution of Higher Education “Yaroslav-the-Wise Novgorod State University”.

13. Vaniev A. A., Kalitov M. A., Kornyshev N. P. Uluchsheniye izobrazheniy, poluchennykh metodom differentsial'noy spektrozonal'noy vizualizatsii [Improvement of images obtained by the method of differential multispectral imaging] // Vestnik NovSU. 2019. 4(116). 9-12. DOI: 10.34680/2076-8052.2019.4(116).9-12

14. Gonzalez R., Woods R. Tsifrovaya obrabotka izobrazheniy [Digital image processing] / translated from English by L. I. Rubanova, P. A. Chochi. 3rd ed., rev. and add. Moscow: Technosphera, 2012. 1103 p.

15. Spectroheliograph // Great Soviet Encyclopedia (SE): website. URL: https://www.rulit.me/books/bolshaya-sovetskaya-enciklopediya-sp-read-88904-26.html (accessed: 21.12.2023).

16. Kronberg P. Distantsionnoye izucheniye Zemli: osnovy i metody distantsionnykh issledovaniy v geologii [Remote sensing of the Earth: fundamentals and methods of remote sensing in geology] / translation from German by V. A. Bush [et al.]; edited by V. G. Trifonov. Moscow: Mir, 1988. 343 p.

17. Kravtsova V.I. Space methods for soil research: a textbook for university students. Moscow: Aspect Press Ltd., 2005. 190 p.

18. Kienko Yu. P. Osnovy kosmicheskogo prirodovedeniya: uchebnik dlya vuzov [Fundamentals of space natural science: a textbook for universities]. Moscow: Kartgeocentr– Geodezizdat, 1999. 285 p.

19. Malinnikov V. A., Stetsenko A. F., Altynov A. E., Popov S. M. Monitoring prirodnoy sredy aerokosmicheskimi sredstvami: uchebnoye posobiye dlya studentov vuzov [Monitoring the natural environment using aerospace means: a textbook for university students]. Moscow: MIIGAiK publ. house, 2008. 145 p.

20. Gavrilova O. I., Gryazkin A. V., Olkhin Yu. V. Ispol'zovaniye bespilotnogo letatel'nogo apparata dlya otsenki protsessa formirovaniya molodnyakov na vyrubkakh [The use of unmanned aerial vehicles to assess young trees formation in clean cutting areas] // Resources and Technology. 2023. 20(3). 60-75. DOI: 10.15393/j2.art.2023.7163

21. Podushin Yu. V., Savinsky A. O., Myazina A. N. Ispol'zovaniye aerofotos"yomki mul'tispektral'noy kameroy dlya otsenki effektivnosti primeneniya gerbitsidov [Using aerial photography with a multispectral camera to evaluate the effectiveness of herbicides] // Polythematic online scientific journal of Kuban State Agrarian University. 2021. 174. 359-378. DOI: 10.21515/1990-4665-174-027

22. Belov M. L., Belov A. M., Gorodnichev V. A., Alkov S. V. Analiz vozmozhnostey mul'tispektral'nogo opticheskogo metoda monitoringa lesnykh territoriy [Analysis of capabilities of the multispectral optical method in monitoring the forest territories] // Herald of the Bauman Moscow State Technical University. Series Instrument Engineering. 2022. 4(141). 56-69. DOI: 10.18698/0236-3933-2022-4-56-69

23. Zhurbin I.V., Zlobina A.G., Shaura A.S., Bazhenova A.I. Statisticheskiy analiz dannykh mnogozonal'noy s"yemki dlya rekonstruktsii arkheologicheskikh pamyatnikov [Statistical Analysis of Multispectral Imaging Data for the Reconstruction of Archaeological Sites] // Chemical physics and mesoscopy. 2022. 24(1). 56-68. DOI: 10.31857/S0869606322040195

24. Podolskaia E. S. Ispol'zovaniye dannykh distantsionnogo zondirovaniya zemli iz kosmosa dlya raspoznavaniya izobrazheniya dorog v lesnom khozyaystve [Use of remote sensing data from space for road image recognition in the forestry] // Forest science issues. 2022. 5(4). 1-21. DOI: 10.31509/2658-607x-202252-115

25. Sherstobitov D. N., Ermakov V. V., Pystin V. N., Tupitsyna O. V. Monitoring of the development of blue-green algae in the kuibyshev reservoir using remote sensing indices // RUDN Journal of Ecology and Life Safety. 2023. 31(2). 232-240. DOI: 10.22363/2313-2310-2023-31-2-232-240

26. Garafutdinova L. V., Kalichkin V. K., Khlebnikova E. P. Otsenka metodov klassifikatsii mnogozonal'nykh kosmicheskikh snimkov [Evaluation of methods for multispectral space images classification] // Vestnik of Omsk State Agrarian University 2022. 4(48). 19-28. DOI: 10.48136/2222-0364_2022_4_19

27. Golub Yu. I. Otsenka rezul'tatov povysheniya razresheniya mul'tispektral'nykh sputnikovykh izobrazheniy metodom sliyaniya [Evaluation of the results of pansharpening multispectral images] // System analysis and applied information science. 2022. 2. 10-19. DOI: 10.21122/2309-4923-2022-2-10-19

28. Zotov S. A., Dmitriev E. V., Melnik P. G., Kondranin T. V. Povysheniye informativnosti mul'tispektral'nykh sputnikovykh izobrazheniy s ispol'zovaniyem dannykh teksturnogo analiza [Increasing the informativity of multispectral satellite images using texture analysis data] // Lesnoy Zhurnal (Russian Forestry Journal). 2022. 2(386). 84-104. DOI: 10.37482/0536-1036-2022-2-84-104

29. Hu C., He M.-X. Origin and offshore extent of floating algae in Olympic sailing area // Eos Transactions American Geophysical Union. 2008. 89(33). 302-303. DOI: 10.1029/2008EO330002

30. Hu C. A novel ocean color index to detect floating algae in the global oceans // Remote Sensing of Environment. 2009. 113(10). 2118-2129. DOI: 10.1016/j.rse.2009.05.012

31. Siddiqui M. D., Zaidi A. Z., Abdullah M. Performance assessment of newly developed seaweed enhacing index // Remote Sensing. 2008. 11(12). 1-14. DOI: 10.3390/rs11121434

32. Kornyshev N. P., Gareev V. M., Gareev M. V., Serebryakov D. A. Osobennosti formirovaniya psevdogiperspektral'nykh izobrazheniy iz RGB komponent [Features of the formation of pseudo-hyperspectral images from RGB components] // Vestnik NovSU. 2023. 1(130). 169-177. DOI: 10.34680/2076-8052.2023.1(130).169-177

33. Kalinin A. P., Orlov A. G., Rodionov I. D. Aviatsionnyy giperspektrometr [Aviation hyper-spectrometer] // Herald of the Bauman Moscow State Technical University. Series Instrument Engineering. 2006. 3(64). 11-24.

34. Serebryakov D. A., Gareev V. M., Gareev M. V., Kornyshev N. P. Osobennosti formirovaniya izobrazheniy v giperspektral'noy sisteme na baze interferometra Fabri-Pero [Features of image formation in a hyperspectral system based on the Fabry-Perot interferometer] // Voprosy radioelektroniki. Seriya: Tekhnika televideniya. 2023. 1. 128-133.

35. Gareev V. M., Gareev M. V., Kornyshev N. P., Serebriakov D. A, Karachinov V. A., Gavrushko V. V., Bystrov N. E. Dvukhkanal'naya giperspektral'naya sistema [Twochannel hyperspectral system] // Vestnik NovSU. 2023. 5(134). 658-670. DOI: 10.34680/2076-8052.2023.5(134).658-670

36. Gareev V.M., Gareev M.V., Lebedinsky N.I., Kornyshev N.P., Serebryakov D.A. Giperspektral'naya sistema vidimogo diapazona na baze interferometra Fabri-Pero [Hyperspectral visible range system based on the Fabry-Pérot interferometer] // Vestnik NovSU. 2022. 3(128). 78-83. DOI: 10.34680/2076-8052.2022.3(128).78-83

37. Gareev V. M., Gareev M. V., Kornyshev N. P., Serebryakov D. A. Komp'yuternoye modelirovaniye protsedur sliyaniya giperspektral'nykh i pankhromaticheskikh izobrazheniy s ispol'zovaniyem veyvlet-preobrazovaniya [Computer simulation of procedures for merging hyperspectral and panchromatic images using wavelet transform] // Vestnik NovSU. 2023. 1(130). 158-168. DOI: 10.34680/2076-8052.2023.1(130).158-168

38. Gareev V. M., Gareev M. V., Kornyshev N. P., Serebryakov D. A. Metody povysheniya chetkosti tsifrovykh televizionnykh spektrozonal'nykh izobrazheniy [Methods of increasing the clarity of digital television spectral images] // Voprosy radioelektroniki. Seriya: Tekhnika televideniya. 2023. 2. 19-24.

39. Gareev V. M., Gareev M. V., Kornyshev N. P., Serebryakov D. A. Metody povysheniya chetkosti tsifrovykh televizionnykh spektrozonal'nykh izobrazheniy [Methods of increasing the clarity of digital television spectral images] // Voprosy radioelektroniki. Seriya: Tekhnika televideniya. 2023. 3. 53-59