RU2005133811A - METHOD FOR HYDROMETEOROLOGICAL-ACOUSTIC MONITORING OF THE MARINE SURFACE - Google Patents

Claims (4)

1. The method of hydrometeorological monitoring of the water area of a marine landfill, including the simultaneous implementation of areal surveys of the bottom topography by echolocation and gravimetric surveys to determine corrections for the bottom topography during measurements, the placement of measuring equipment on the surface, in the aquatic environment and on the bottom of the water area of a marine landfill, the amount of which satisfies the condition filling the entire investigated water area with a given distribution in the studied water area by determining the coordinates of the measuring equipment, comparing them with the given coordinates, measuring the dynamic noise of the sea, temperature of sea water and atmosphere, atmospheric and hydrodynamic pressures, density and salinity of sea water, flow velocity, analyzing the spectra of recorded signals, determining the components of the sea’s energy noise from them, average wind speed, wave heights of 3% of security, with the inclusion of these parameters in the composition of the information software transmitted to reception points through communication channels, characterized in that the conditions for filling the investigated water area with a given distribution in it are determined by restoring the bottom topography profile of the studied water area according to the results of areal survey and determining critical points caused by changes in gravity, when registering dynamic sea noise, additional low-frequency waves are recorded by means of artificially excited high-frequency pump waves with detection of combination signals by modulation characteristics the noise of the sea and shipping during scattering of a plane harmonic wave on a spatially limited wave packet whose length is shorter than the wavelength and still determine the oscillation speed of the measuring equipment under the influence of the current, the average wind speed is determined by processing sections of the energy spectrum selected by clustering, followed by parsing and determining the speed of the surface current, the speed of the drift current, the speed of the surface wind current, soon orbital flow, wave period, wavelength, wave velocity. 2. The method according to claim 1, comprising performing areal surveying of the bottom topography by sonar surveying from a mobile carrier by means of at least two sonar, characterized in that the relative elevations of the bottom are determined by measuring longitudinal parallaxes at arbitrary points obtained by discrete changes in the beam angle . 3. The method according to claim 1, containing gravimetric survey, including the measurement of gravity by gravimeters with the definition of corrections in the readings of gravimeters, due to changes in gravity at a fixed point on the surface of the ocean, fluctuations in the level of the sea surface in time, the influence of the moon and the sun, construction of gravimetric maps of the water area of the landfill, with sea level measurement by means of meters with recording the measurement time and determining the upper culmination of the moon on a fixed geographical meridian, characterized in that sea level measurements are performed on a time interval commensurate with the change in the tidal phase. 4. The method according to claims 1 and 3, comprising constructing gravimetric maps of the water area of the polygon, including plotting gravimetric points on the map with the value of the anomalies, interpolating the values of the anomalies, plotting the isoanomalus from the measured values of the anomalies, characterized in that the plotting of the isoanomalous map is performed in the form of fractal lines satisfying the condition L (δ) = 1 (δ), where L (δ) = qδ ^1-d ; L is the length of the coastline; 1 (δ) is the length of the isoanomalies between the points of the anomalies; qd> 1 are numerical constants determined by the degree of indentation of the shape of the coastline and the degree of indentation of the fractal line, respectively; δ is the map scale.