RU208856U1 - The device of hydroacoustic calculations according to the data of operational oceanology - Google Patents

Abstract

The utility model relates to the field of hydroacoustic technology and can be used in hydroacoustic stations and complexes (GAS and GAK) for various purposes, placed on ships and stationary. VRSS measurements (determination of temperature, salinity (electrical conductivity) and pressure of sea water with CTD probes). The technical result is to simplify the device for hydroacoustic calculations, reduce its cost. sound and signal attenuation as a function of temperature, salinity and pressure, acoustic field, detection range and database, a new feature has been introduced, namely, a browser has been introduced into the structure of the device for using data operational oceanology, format converter and input and output interfaces.

Description

The utility model relates to the field of hydroacoustic technology and can be used in hydroacoustic stations and complexes (GAS and GAK) for various purposes, placed on ships and stationary.

Devices for hydroacoustic calculations are required, for example, for evaluating by calculating the attenuation during the propagation of hydroacoustic signals at various distances, depths and frequencies, calculating the acoustic field of signals, solving the hydroacoustic equation, calculating the detection range of marine objects of various classes in the noise direction finding and sonar modes, in the modes of detecting hydroacoustic signals, acoustic visibility of the carrier, development of recommendations for adapting operating modes. Estimates are made according to the data of the vertical sound velocity distribution (VSDS), as well as, for example, the acoustic properties of the bottom, surface waves.

The construction of such devices is known. The devices consist of two parts - a VRDS meter, indirect or direct determination of VRDS, and a software and hardware device for hydroacoustic calculations. The connection between the parts is electrical. The main technical characteristics are given, for example, in [Evtyutov A.P., Mitko V.B. Engineering calculations in hydroacoustics. L.: Shipbuilding, 1988; Marasev S.V., Mashoshin A.I. Problems Solved by the System of Hydroacoustic Calculations // Marine Radioelectronics. - 2015, No. 2 (52). - S. 40-45].

The principal disadvantage of these devices is the presence of a drop-down device for indirect one-time use (determination of temperature, salinity (electrical conductivity) and sea water pressure with CTD probes) or a drop-down direct determination of VRSS and a stationary device for direct determination of VRDS. Specifically, the disadvantages are bulkiness, the presence of a winch for lowering and data transmission by cable at the current depth during lowering to the bottom, data processing is not in real time.

The closest analogue to the proposed utility model is a device for hydroacoustic calculations of the SJSC of a submarine, consisting of three parts. The prototype contains a stationary meter for direct determination of VRSS, located in the fence of the cabin of a submarine, a disposable meter - containers with meters for direct determination of VRSR or temperature, salinity (electrical conductivity) and pressure CTD probes for indirect determination of VRSR, produced from a universal apparatus, transmitting data via cable. The device has blocks for calculating VRSS and attenuation of signals according to the data of the temperature meter, salinity (electrical conductivity) and pressure, the acoustic field of signals, the detection range (solution of the equation of hydroacoustics) and the database block [Alekseev N.S., Velichkin S.M., Esipova E. .AND. and others. Patent of the Russian Federation No. 122494 dated 07/05/2012. Hydroacoustic complex of a submarine. IPC G01S 3/80].

The objective of the utility model is to abandon the meter for direct determination of VRSS and the meter for temperature, salinity (electrical conductivity) and pressure for indirect determination of VRSS.

EFFECT: simplification of the device for hydroacoustic calculations, reduction of its cost.

To achieve the claimed technical result, new features have been introduced into the hydroacoustic calculation device, which contains blocks for calculating VRSS and attenuation according to temperature, salinity and pressure data from operational oceanology, a field, a range and a database block, namely, browser blocks have been introduced into the device for using operational oceanology data , data format converter, input interface and output interface.

The task in the claimed utility model is solved as follows.

The browser blocks introduced into the claimed device for using operational oceanology data and the data format converter ensure the rejection of the VRSS meter due to the use of external information, the input and output interface blocks ensure the device is structurally isolated.

The essence of the utility model is illustrated in Fig. 1-6, where in Fig. 1 shows a generalized functional diagram of the claimed device. In FIG. 2 is an exemplary plot of temperature profile versus pressure (depth) and FIG. 3 is an example of a salinity profile plot. In FIG. 4 - an example of a schedule for calculating the profile of VRSS. In FIG. 5 is an example of a graph for calculating the attenuation (absorption) coefficient. In FIG. 6 - an example of the calculation of the acoustic field of signals.

The claimed device (Fig. 1) contains a browser block 1, the first input of the block is connected to the computer network of operational oceanology, and the output is connected to the first input of the format converter block 2, the output of which, in turn, is connected to the first inputs of the VRSS calculation block 3, the attenuation calculation block 4 and the field calculation block 5, and the second inputs of the browser block 1, the format converter block 2, the VRSZ calculation block 3, the attenuation calculation block 4, the field calculation block 5 and the range calculation block 7 are connected to the output of the input interface block 9, the outputs of the attenuation calculation block 4 and calculation block VRSZ 3 are connected to the third and fourth inputs of the calculation block field 5, the fifth input is connected to the output of the database block 6, and the third output of the calculation block field 5 is connected to the input of the database block 6, the outputs of the calculation block VRSZ 3, the calculation block range 7 are connected respectively to the first and second inputs of the output interface block 8, the first output of the field calculation block 5 is connected to the input of the range calculation block 7, and the second output of the block Calculation field 5 is connected to the third input of the output interface block 8, the output of which is connected to the command source. The connections of the input of the browser block 1, the output of the output interface block 8 and the input of the input interface block 9 in FIG. 1 are not shown.

Device blocks can be implemented on a printed circuit board, on which electronic components (microcircuits, resistors, capacitors, quartz resonators, radiators, connectors) are placed by assembly operations (gluing, articulation, soldering). Those. the constructive unity and implementation by the device of general functional purpose is provided.

The proposed device for hydroacoustic calculations according to operational oceanology works as follows.

The subject of operational oceanology is to obtain estimates of hydrophysical data in a mode close to real time. There are resources of operational oceanology - information on the distribution of temperature and salinity in depth, on the waves of the sea surface, on the characteristics of ice.

When power is applied, the software is loaded and the device waits for a command packet from the HAC or GAS via a protocol such as Ethernet or USB. Upon receipt of the command packet, the browser is connected via the KIC550 module, for example, to the WEB server of the Internet http:/193.7.160.230/web/GODAS_HMC/daily_v3.1/ FGBU "HYDROMETCENTER OF RUSSIA", where the output data of the operational system of oceanology - the oceanographic data assimilation system - is posted daily (SUOD) [Dumanskaya I.O., Zelenko A.A., Myslenkov S.A. Marine Hydrological Forecasts and Operational Oceanology at the Hydrometeorological Center of Russia // Hydrometeorological Research and Forecasts. - 2019. No. 4. S. 149-183]. Next, the download of the compressed data file required by the date is carried out, unpacking, the NetCDF format is converted to the floating point format, and the data is sampled according to the geographical coordinates specified in the command package. In FIG. Figures 2 and 3 show examples of temperature and salinity profiles obtained from the above WEB server. The WRSZ is calculated as a function of temperature, salinity and pressure (depth). Several calculation formulas are known, for example, Wilson, Del Gross, Chen and Miller, VNIIFTRI. Calculations of the attenuation coefficient at given horizons and frequencies in the command package are made as a function of temperature, salinity and pressure (depth). In FIG. Figures 4 and 5 show examples of graphs for calculating the VRDS, the attenuation coefficient. Calculation of the acoustic field of signals - the picture of the field is carried out for the conditions specified in the command package, for example, the model of the sound source and receiver of sound vibrations, the topography and acoustic properties of the bottom, calculation parameters. The model of the marine environment for calculating the loss of sound energy, sea surface disturbance, ice characteristics, are set according to the data obtained from operational oceanology. In FIG. 6 - an example of calculating the acoustic field of signals [Avilov K.V., Dobryakov N.A., Popov O.E. A software complex for calculating sound fields in a marine environment that is heterogeneous in depth and propagation path // Reports of the X Scientific School-Seminar of Academician L.M. Brekhovskikh "Acoustics of the Ocean", combined with the XIV session of the Russian Acoustic Society. - M.: GEOS. - 2004. - S. 27-30]. At the end of the actions specified in the package of commands, the results are transmitted via a protocol, for example, Ethernet or USB to the SAC or SAS.

The use of hydrophysical data of operational oceanology introduced into the claimed device made it possible to perform hydroacoustic calculations without using a meter for direct determination of VRSS and a meter for temperature, salinity and pressure, which significantly reduced the cost of the device and simplified its use.

This allows us to consider that the technical result has been achieved.

To explain the utility model, as examples, in FIG. 2 is a plot of temperature profile versus pressure (depth) and FIG. 3 - salinity profile plot, Barents Sea, 03/20/21, 73.67°N, 23.97°E. Data on temperature and salinity depending on pressure (depth) for a given date and coordinates were obtained from the WEB server http:/193.7.160.230/web/GODAS_HMC/daily_v3.1/ FGBU "HYDROMETCENTER OF RUSSIA". Compressed file with data of temperature, salinity by depth and coordinates wo_20210320_grid_T.nc.gz, detailed ice characteristics in a compressed file wo_20210320_grid_icemod.nc.gz. In FIG. Figure 4 shows a graph of the VRSS profile as a function of pressure (depth), the calculation was made using the Wilson formula as a function of temperature, salinity and pressure. In FIG. 5 is a graph of the attenuation (absorption) ratio as a function of signal frequency at a depth of 120 m. FIG. 6 - calculation of the acoustic field of signals in the ray approximation based on the method of Gaussian rays. The source is at a depth of 50 m, the signal is harmonic at a frequency of 1000 Hz, the disturbance is 0 points. Acoustic visibility of the source (carrier of the HAC or HAS) at a level of - 10 dB at depths of no more than 150 m and at distances of no more than 20 km [Avilov K.V., Dobryakov N.A., Popov O.E. A software complex for calculating sound fields in a marine environment that is heterogeneous in depth and propagation path // Reports of the X Scientific School-Seminar of Academician L.M. Brekhovskikh "Acoustics of the Ocean", combined with the XIV session of the Russian Acoustic Society. - M.: GEOS. - 2004. - S. 27-30].

Claims (2)

1. A device for hydroacoustic calculations based on operational oceanology data, containing blocks for calculating VRSS and attenuation as a function of temperature, salinity and pressure, blocks for calculating the field and detection range, and a database block, characterized in that the browser and format converter blocks for use are introduced into the structure of the device operational oceanology data, as well as blocks of input and output interfaces, wherein the first input of the browser block is connected to the computer network of operational oceanology, and the output is connected to the first input of the format converter block, and the output of which, in turn, is connected to the first inputs of the VRSS calculation block, block attenuation calculation block and field calculation block, and the second inputs of the browser block, format converter block, VRCD calculation block, attenuation calculation block, field calculation block and range calculation block are connected to the output of the input interface block, the input is connected to the command source, the outputs of the attenuation calculation block and calculation block VRZZ connected to the third and fourth input by the field calculation block, the fifth input is connected to the output of the database block, and the third output of the field calculation block is connected to the input of the database block, the outputs of the VSZ calculation block, the range calculation block are connected respectively to the first and second inputs of the output interface block, the first output of the calculation block field is connected to the first input of the range calculation block, and the second output of the field calculation block is connected to the third input of the output interface block, the output of which is connected to the command source. 2. The device according to claim 1, characterized in that the browser is equipped with a wireless connection with a satellite provider.

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