Scientific basis of environmental and climate monitoring methods |
|
SUN Jiyu,ZHU Zemin, SONG Jun,GUO Junru,CAI Yu,FU Yanzhao,Wang Linhui, Polonsky A. Research on multivariate Yellow Sea SST week prediction method based on encoder-decoder LSTM |
5 |
A.B. Fedotov. Time scale analysis of long-period variability of oceanic circulation using a three-layer numerical model |
15 |
Methods for monitoring the natural environment and man-made objects |
O.A. Stepanova, S.A. Sholar. Evaluation of the results of monitoring indicator algal viruses during the COVID-19 quarantine period (2020–2021) |
20 |
L.I. Lukina, D.V. Moiseev. Analysis of radioecological features Chernobyl accident |
28 |
A.S. Chernova, A.A. Islamutdinova, E.K. Aminova, V.A. Idrisova. Acid corrosion inhibitors based on oleic acid amides |
43 |
L.I. Osadchaya, L.A. Nichkova, A.R. Gerasimov, D.S. Shenin. Investigation of the steam-water plume of the cooling tower in the environment |
49 |
Technical means of environmental monitoring systems |
L.A. Krasnodubets. Dynamic measurements in the problems of operational oceanology in the study of the properties of the oceanic plate |
56 |
Systems of environmental monitoring |
S.A. Gutnik, E.I. Azarenkо, G.A. Sigora, V.S. Gutnik, L.A. Nichkova, T.Yu. Khomenko. Zoning of the territory of the city of Sevastopol for the organization of monitoring of atmospheric pollution |
66 |
N.A. Andreeva. Monitoring the composition of periphyton and epiliton cyanobacteria in the coastal shallow water (Black Sea, Sevastopol) |
74 |
I.V. Ovsyannikova, V.V. Pryanichnikova, R.R. Kadyrov, I.A. Kichigin, I.R. Shugaepov, B.A. Yapparov. Study of toxic properties of oil-contaminated soil using biotesting methods |
81 |
I.V. Agarkova-Lyakh. History of studying and organizing observations of exogenous geological processes on the shores of Sevastopol from cape Tyubek to cape Sarych |
86 |
V.G. Scherbina. Dynamics of allelopatic soil effects in forest eco-systems with a monodominant forest stand after simulation of recreational load |
94 |
Metrological support of environmental monitoring systems |
М.V. Lapa, S.E. Kravtsova, V.A.Safonov. Analysis of the state of measurements, testing and environment control in production and in scientific research |
105 |
Algorithmic and software support in environmental monitoring systems |
A.N. Grekov, A.A. Kabanov. Ensemble machine learning methods for Euler angles detection in an inertial navigation system |
112 |
Yu.M. Popovnin, D.M. Puzanov, V.F. Grishko. Statistical model of adaptive system compensation of noise interference in the radar when detecting hydrometeorological formations in the atmosphere |
121 |
Alphabetical index of authors |
131 |