OptoElectronic System for Agricultural Plants Condition Monitoring

Authors: Vvedenskaya A.V., Vvedenskiy V.V., Gins M.S., Khorokhorov A.M. Published: 02.08.2017
Published in issue: #4(115)/2017  
DOI: 10.18698/0236-3933-2017-4-43-53

Category: Instrument Engineering, Metrology, Information-Measuring Instruments and Systems | Chapter: Instrumentation and Methods to Control Environment, Substances, Materials, and Products  
Keywords: opto-electronics, hyperspectrometr, monitoring, N-procuring, vegetation indicies

The work deals with development of the opto-electronic automated control system for N-procuring of agricultural plants. The study substantiated the spectral photometric method for monitoring the state of green phytomass in providing plants with mineral and organic substances. Moreover, the research focuses on the analytical relationships that make it possible to calculate the basic parameters of opto-electronic equipment with the required speed, spatial and spectral resolution. Finally, the work gives the main characteristics of the developed hyperspectrometer.


[1] Merzlyak M.N., Gitel’son A.A., Chivkunova O.B., Solovchenko A.E., Pogosyan S.I. Application of reflectance spectroscopy for analysis of higher plant pigments. Russian Journal of Plant Physiology, 2003, vol. 50, no. 5, pp. 704-710. DOI: 10.1023/A:1025608728405 Available at: http://link.springer.com/article/10.1023/A:1025608728405

[2] Afanas’ev R.A., Sopov I.V., Galitskiy V.V. Approaches and experience of the differentiated application of fertilizers using photometry. Plodorodie, 2008, no. 6, pp. 14-17 (in Russ.).

[3] Belousova K.V. Fotometricheskaya diagnostika azotnogo pitaniya rasteniy: Avtoref. dis. kand. tekhn. nauk [Photometric diagnostics of plants nitrogenous nutrition]. Moscow, VNII agrokhimii Publ., 2009. Pp. 9-11.

[4] Cherepanov A.S., Druzhinina E.G. Spectral characteristics of vegetation and vegetation indexes. Geomatika, 2009, no. 3, pp. 28-32 (in Russ.).

[5] Sopov I.V. Vliyanie azotnykh udobreniy na pokazateli rastitel’noy diagnostiki i produktivnost’ zernovykh kul’tur i gorchitsy beloy v usloviyakh tsentral’nogo rayona nechernozemnoy zony: Avtoref. dis. kand. tekhn. nauk [Effect of nitrogen fertilizers on plant diagnostics indexes and productivity of crops and runchweed in conditions of nonchernozem belt central region]. Moscow, VNII agrokhimii Publ., 2009. Pp. 15-17.

[6] Afanas’ev R.A., Sopov I.V., Berezovskiy E.V., Mel’nikov A.V., Sorokin A.V. [Fotometrical diagnostics of cropsnitrogenous nutrition]. Materialy Vserossiyskogo soveshchaniya "Ekologicheskie funktsii agrokhimii v sovremennom zemledelii" [Proc. Russ. conf. "Ecological functions of agrochemistry in modern farming"]. Moscow, VNIIagrokhimii Publ., 2008. Pp. 32-35.

[7] Budagovskiy A.V., Budagovskaya O.N., Lents F. New approach to the problem of functional diagnosis of plants. Agrarnaya nauka [Agrarian science], 2009, no. 9, pp. 19-21 (in Russ.).

[8] Yakshenkov Yu.G. Teoriya i raschet optiko-elektronnykh priborov [Optoelectronic devices theory and calculation]. Moscow, Logos Publ., 2004. Pp. 201-203.

[9] Orlov A.G. Razrabotka i issledovanie aviatsionnogo giperspektrometra vidimogo i blizhnego IK diapazonov: Dis. kand. tekhn. nauk [Development and research on airbornehyperspectrometer of visible and near infrared region. Kand. tech. sci. diss.]. Moscow, Semenov IKhF RAN, 2008. Pp. 120-135.

[10] Zagrubskiy A.A., Tsyganenko N.M., Chernova A.P. Osnovy opticheskikh izmereniy [Fundamentals of optical measurements]. Sankt-Petersburg, Solo Publ., 2007. Pp. 56-57.