Scientific basis of environmental and climate monitoring methods |
V.A. Gaisky, P.V. Gaisky. Wide spectral analysis of natural processes |
5 |
D.O. Krivoguz, R.V. Borovskaya. Methodological aspects of natural territories zoning using machine learning |
14 |
L.V. Stelmakh. Methodology of comprehensive monitoring of modern Black sea phytoplankton community status |
21 |
E.A. Averyanova, A.V. Gubarev, A.B. Polonsky. On a space-time variability and trends of wind stress curl over the Black sea |
27 |
Methods for monitoring the natural environment and man-made objects |
M.V. Volkodaeva, V.A. Kuznetsov, Y.A. Volodina. On the verification of stability and sensitivity of the gas-liquid chromatography method in the st. Petersburg environmental monitoring system for measuring formaldehyde mass concentrations in the ambient air |
37 |
K.S. Tkachenko, I.A. Skatkov. Statistical modeling method for designing information and measurement control systems taking into account features of stochastic processes |
46 |
L.A. Nichkova, I.N. Lukyanenko, A.S. Yurchenko, V.V. Sevrikov, A.N. Odinzov, A.K. Malycheva. Explosion and fire dynamics, flame energy perceived by the sensor |
54 |
Technical means of environmental monitoring systems |
P.V. Gaisky. Electronic memory module for registration of the primary measuring information |
63 |
L.A. Krasnodubets, M.N. Penkov. Computer simulation of a hydrostatic seawater density meter |
71 |
Systems of environmental monitoring |
I.V. Sevrikov, R.R. Ablaеv, О.V. Samsonova, V.V. Sevrikov. Opportunities of structural optimization of fire and explosion hazardous objects protection ergatic systems |
77 |
A.N. Odintsov, I.V. Sevrikov, L.A. Nichkova. About the need for greening individual vehicles |
86 |
P.D. Lomakin, Yu.N. Ryabtsev, A.I. Chepyzhenko. Field of concentration and dynamics of total suspended matter at the southwestern coast of crimea on the basis of natural observations data and numerical simulation |
95 |
G.V. Kucherik, Yu.A. Omelchuk. E.V. Zablotskaya. Research of environmentally safe method of wastewater disposal by electrolyzes |
102 |
A.B. Polonsky, E.A. Grebneva. Climatic characteristics of a ph in the waters near Danube river and its seasonal variability |
109 |
Metrological support of environmental monitoring systems |
Yu.B. Gimpilevich, S.E. Zebek. Modeling errors of the quadrature meter of the pa-rameters of microwave pathes of radio-electronic systems |
117 |
Algorithmic and software support in environmental monitoring systems |
N.L. Korepanova, D.A. Sitnikov. Analysis of hashing algorithms for environmental control systems |
125 |
A.V. Skatkov, A.A. Bryukhovetsky, D.V. Moiseev, V.I. Shevchenko. Dynamic clustering for assessing the states of natural technical systems |
135 |
I.M. Serikova. Algorithm for mathematical processing of bioluminescence profiles for the study of small-scale agregation of plankton |
145 |
Iu.E. Shishkin, A.N. Grekov. Statistical methods for hydrobiont images clustering |
153 |
Information and metrological reliability of environmental monitoring systems |
V.I. Shvetsova. The human operator reliability modeling of the ergatic environmental control system and protection of explosion and fire hazardous objects |
160 |
Alphabetical index of authors |
168 |