Name of the institution: Federal State Budgetary Institute of Science Special Research Bureau for Automation of Marine Researches, Far Eastern Branch of Russian Academy of Sciences (SRBA MR FEB RAS)

Report on the main reference group 13 Physics of the ocean and atmosphere, geophysics Date of report: 22.05.2017

GENERAL CHARACTERISTICS OF SCIENTIFIC ORGANIZATION

Infrastructure of scientific organization

Activity profile according to the list approved by the minutes of the meeting
The Interdepartmental Commission for the Assessment of the Effectiveness of Scientific
Organizations that carry out scientific research, experimental design and
Civil and technological work of 19 January 2016
No. DL-2 / 14pr
“Development of technology.” The organization is mainly focused on performing applied research and development, obtaining results that have practical application. It is characterized by a high level of creation of protected results, while revenues from the provision of scientific and technical services and the level of publication activity is insignificant. (2)

Information on the structural subdivisions of the scientific organization
Laboratory of Computational Hydromechanics and Oceanography.
Laboratory of Hydrophysics.

Laboratory of navigation and geodetic support of hydroacoustic monitoring equipment 2015
Department of Development and Creation of Technical Means for World Ocean Studies.
Laboratory of information-measuring systems.
Sector of automated design of deepwater structures.
Laboratory of Software for Marine Robotics.
Sector of metrological support of R & D.

Experimental production.
St. Petersburg representation.

Sector of communication systems
Laboratory of theoretical and applied problems of hydroacoustic monitoring.
Moscow representative office.
Laboratory of hydroacoustic measuring systems.
Vladivostok representation.

Research infrastructure
The concentration of SRBA MR FEB RAS funds in the development of research and production activities in the priority areas of basic research – the study of dangerous marine phenomena, the interaction of the Ocean and the atmosphere is concentrated:

On the modernization of fixed assets and unique equipment of experimental production for the manufacture of autonomous deep-water equipment,
On equipping scientific laboratories with modern equipment for conducting offshore experimental work and processing large volumes of primary information,
On the improvement of the workplaces of designers and researchers with the aim of increasing labor productivity on the basis of equipping modern computer facilities, information support and constant modernization of computer-aided design systems,
On the improvement of bench and metrological equipment for testing instruments and devices of marine equipment.
Restoration of hydrophysical hospitals on the Sea of Okhotsk coast. Sakhalin and Iturup Island and the organization of expeditions to them, as the basis for obtaining new knowledge in the field of Earth sciences.

Own production base SKB SELI FEB RAS allows to produce experimental samples, small series of marine instruments and specialized devices; The metrological base allows calibrating temperature sensors, pressure sensors, acoustic receivers, sound velocity sensors. On the production base of SKB SAMI DVO RAN it is possible to set up small enterprises to conduct ecological monitoring of water areas, to produce small series of marine instruments, to introduce modern technical means, methods of conducting and informational support of research into the practice of offshore operations.

Presence of unique installations.

Installation “Bench for calibration of hydroacoustic receivers – 2 pcs.” Brand: Navy-P 1.00.00.98;
Installation of “stand for calibration of sea temperature sensors” brand: UGT-3 1 pc.
Installation of “bench for calibration of hydrostatic pressure sensors” with a set of piston manometers, type: UGD-600, 1 set.
Installation of “stand for testing instruments for hydrostatic pressure – 4 pcs.” (Up to 60 atm – 1 unit, up to 600 atm – 3 pcs.)
Installation “installation for vibration testing” brand: VED-200, 1 pc.
Installation “installation for vibration testing” Brand: VED-100, 1 pc.
Installation of “climatic chamber for testing for climatic factors -2 pcs.” FEUTRONype: PDA;
Special scientific equipment “Autonomous seismoacoustic station” 3 pcs .;
Special scientific equipment “Autonomous deep-sea hydroacoustic station” – 3 pcs.
Special Scientific Equipment “Autonomous Hydrophysical Station” – 2
PC.

The research program of SRBA MR FEB RAS includes the following main directions: – development and practical testing of methods, technologies and technical

Means, allowing to predict the degree of impact of dangerous marine phenomena on objects of sea and coastal infrastructure; – development and practical approbation of methods, technologies and technical means of transmission of information flows in the underwater space, as well as through the interface between media “water-air” and “water-ice-air” with elements of intellectual control; – development and practical testing of methods and technologies for creating a unified range of measuring platforms capable of operating at depths of up to 6,000 m in the interests of creating geographically distributed monitoring networks for the hydroacoustic, geophysical and geoecological situation in the World Ocean.

These directions are especially relevant for the Sakhalin region in connection with the active economic activity on the shelf of Sakhalin Island. Modern compact deep-sea bottom stations with large autonomy, created in SRBA MR FEB RAS, are equipped with multi-element receiving and radiating hydroacoustic antennas. By satellite communication channels they are able to transmit information from the sea surface from any point of the World Ocean, in addition, they are equipped with digital information processing systems.

The stations allow performing a full range of research and experimental works on the collection, processing and systematization of information on the state of the marine environment.

Special challenges are facing SRBA MR FEB RAS intensive development of oil and gas projects on the Sakhalin shelf. At present, there is a need for comprehensive environmental monitoring of water areas in the oil production and transportation zones of hydrocarbon raw materials. To assess the state of the aquatic environment in terms of hydrochemical and hydrobiological indicators, a special autonomous station for vertical sounding in coastal and shallow areas has been created by designers SRBA MR FEB RAS.

No less relevant are developments for the study of dangerous marine phenomena in the conditions of the intensively developing infrastructure of oil and gas fields in the storm and ice conditions of the Sakhalin shelf.

In the long term, until 2025, it is planned to create an information and analysis center of the Sakhalin region on the basis of information obtained from direct contact measurement systems, data from Earth remote sensing satellites, mathematical models of the emergence and development of dangerous marine phenomena.

Strategic development of scientific organization
SRBA MR FEB RAS has a significant scientific, methodological and technological background allowing it to develop and produce on its own basis a wide range of autonomous deep-sea technical facilities that have unique characteristics and meet the requirements of world and national standards.

The development strategy of SRBA MR FEB RAS is aimed at solving fundamental and applied scientific problems related to the study of the World Ocean, the Arctic and the Antarctic, allowing in the short term to ensure the creation of competitive technologies, products and services that meet the national interests of the Russian Federation, in demand in the domestic and international markets .

It is planned to prepare a general agreement with CJSC “SRI STT” with equity participation in the promotion of markets and the subsequent sale of high-tech science-intensive products developed in the SRBA MR FEB RAS. In order to develop the scientific and applied activities of SRBA MR FEB RAS, a number of agreements on cooperation with scientific (FGBUN MGI), production (SS Gonets, PJSC DalPribor), educational (SibSUTI, SakhGU) and commercial organizations SCANEX). As part of the further development of international cooperation, SRBA MR FEB RAS continues to participate in international programs and projects ASTARTE, TROYO, TSUMAP-NEAM. The works are aimed at the improvement of the NAMI-DANCE software complex (developed with the participation of the SRBA MR FEB RAS specialists) and expanding its implementation in the tsunami warning system, as recommended by UNESCO. It is planned to establish links with the scientific community of the SRV and Germany. The work on the step-by-step entry of SRBA MR FEB RAS into the International Association of Marine Contractors (IMCA) is planned.

Integration into the world scientific community

Participation in large international consortia (for example – CERN, JINR,
FAIR, DESY, ISS and others) between 2013 and 2015
Information not provided

Inclusion of the field experiences of the organization in Russian and international
Investigative networks. To be filled in by the organizations that selected the reference
Group № 29 «Technologies of plant growing»
Information not provided

Availability of foreign grants, international research programs
Or projects for the period from 2013 to 2015
There are 4 international agreements on cooperation between SRBA MR FEB RAS and the Institute of Oceanographic Instrumentation of the Academy of Sciences of the province of Shandong of the Chinese People’s Republic.

– participation of the Institute in international programs and projects;

SRBA MR FEB RAS takes part in the international project ASTARTE (Assessment, STrategy and Risk Reduction for Tsunamis in Europe), Collaborative project, FP7-ENV-2013-two-stage, Grant Agreement Number 603839.

The ASTARTE project aims to address the challenges of expanding tsunami knowledge and beyond the repetition of simple catalogs with empirical data, conducting new statistical studies to assess long-term repetition and tsunami hazards, developing numerical methods for tsunami modeling, hazard assessment methods, vulnerability and risk.

SRBA MR FEB RAS takes part in the international project Tguo Material for training in kindergartens, schools to confront dangerous marine disasters. Dangerous marine phenomena – What is it and how can you protect yourself from them. Illustrated material.

SCIENTIFIC POTENTIAL OF THE ORGANIZATION

The most significant results of basic research

The research directions of the studies conducted by the organization and their most significant results obtained in the period from 2013 to 2015
Works 2013-2015. On directions of scientific research of the Program of fundamental scientific researches of the state academies of sciences for 2013 – 2020: Mathematical modeling

The possibility of reconstructing the parameters of wind waves from measurements of bottom pressure is investigated. Within the framework of the weakly dispersive full-linear theory of long waves (the so-called Zheleznyak-Pelinovsky system) and the assumption of the motion of a wave with constant velocity, an explicit approximate formula is obtained for a single-point connection between pressure variations and the displacement of the water surface. It includes nonlinear and dispersion corrections to the hydrostatic formula derived from the nonlinear theory of shallow water.

During the performance of numerical and analytical work, a variable system of mesh computations was presented in the NAMIDANCE computer complex, the size of which is set by the local depth of water, and due to this, local numerical dispersion reproduces the physical dispersion. In order to obtain results that must be reliable from the point of view of dispersion, the sensitivity of the presented model of nonlinear shallow water equations and the approximation of the numerical scheme giving the dispersion corrections is investigated.
Numerical modeling of the effect of long waves on the test coast with various barriers using measured surface wave data was carried out as an initial condition. For the modeling, the author’s code NAMIDANCE was used. The study of hydrodynamic parameters in flood zones with the use of differently located structures of engineering shore structures is carried out. Calculations have shown that damage from long waves will occur independently From the presence of protection structures, if the waves are able to fill structures and flood the area. It is necessary to locate barriers at certain intervals so that when moving, the wave will lose energy and exhaust force before approaching the relevant objects

Tatiana Talipova, Katherina Terletska, Vladimir Maderich, Igor Brovchenko, Kyung Tae Jung, Efim Pelinovsky, and Roger Grimshaw. Internal solitary wave transformation over a bottom step: Loss of energy. PHYSICS OF FLUIDS 25,032110 (2013). P. (032110-1) – (032110-14).

Yalciner, A.C., A. Zaytsev, B. Aytore, I. Insel, M. Heidarzadeh, R. Kian, and F. Imamura. 2014. A POSSIBLE SEBMARINE LANDSLIDE AND ASSOCIATED TSUNAMI AT THE NORTHWEST NILE DELTA, MEDITERRANEAN SEA, Oceanography 27 (2): 68-75

Sozdinler CO., Yalciner A.C., Zaytsev A. // Pure Appl. Geophys. 2015. Vol. 172. P. 931-952. DOI 10.1007 / s00024-014-0947-z.

Modern problems of radiophysics and acoustics, including the fundamental foundations of radiophysical and acoustic methods of communication, location and diagnostics, the study of nonlinear wave phenomena

Far Eastern radio-acoustic system for illuminating the atmosphere, the ocean and the earth’s crust, monitoring their fields of various physical nature. The system is implemented on the basis of non-linear lumen hydroacoustics technologies for the development of marine instruments, provides monitoring and control of fields of various physical nature formed by sources, processes and phenomena of the atmosphere, the ocean and the crust as an information field of the Earth. The frequency range is tens of kHz units, hundreds – dozens – units – Hertz shares. The range of reception of waves is hundreds of kilometers, which is confirmed by sea trials.
A method has been developed for the search for hydrocarbon deposits on the sea shelf, including the generation of a locating signal in water, the registration of information waves in the infrasonic frequency range by means of an underwater acoustic unit and the processing of an information signal with the verification of the presence of search characteristics of hydrocarbon fields. The invention provides a searchability of hydrocarbon deposits on the shelf with increasing search reliability on extended water areas.
Mathematical models for the evaluation of the effectiveness of multi-position radio-acoustic buoys (RSL) have been developed to provide continuous monitoring of the marine situation in specified areas. As the main criterion for optimizing the structure of building such a system, the cost of lighting the situation in a unit area is justified. As a private indicator of efficiency, the time for obsolescence of information about the situation in the controlled area is justified.

Mironenko MV, Malashenko AE, Karachun LE, Vasilenko A.M. The method of searching for hydrocarbon deposits on the sea shelf. Pat. The Russian Federation. №2503036 from 27.12. 2013, SKB SAMI FEB RAS.

Mironenko MV, Malashenko AE, Karachun LE, Korytko AS / The method of parametric reception of waves of different physical nature in the marine environment / SKB SAMI DVO RAN, Pat. No. 2474793 of 10.02.2013.

Malashenko AE, Mironenko MV, Vasilenko AM, Leonenkov RV Long-range parametric reception of information waves in luminous hydroacoustic systems // “Sensors and systems”. No. 113. P. 56-60.

Mironenko MV, Malashenko AE, Vasilenko AM, Karachun LE, Leonenkov RV Nonlinear translucent hydroacoustics and means of marine instrument making in the creation of the Far Eastern radio-acoustic system for illuminating the atmosphere, the ocean and the earth’s crust, monitoring their fields of various physical nature. / Monograph. SKB SAMI FEB RAS. The publishing house of the FEFU, Vladivostok, 2014, 480 C.

Emelianenko VF, Kalenov E.N. Simulation model of a hydroacoustic station for detection of marine objects // Sensors and systems, No. 12, 2014, pp. 55-57.

The world ocean – physical, chemical and biological processes, geology, geodynamics and mineral resources of the oceanic lithosphere and continental margins; The role of the ocean in the formation of the Earth’s climate, modern climatic and anthropogenic changes in oceanic natural systems

Complex studies of the water exchange of Lake Tunaicha with the Sea of Okhotsk were carried out. Hydrological parameters in the thickness of the liquid from the surface to the bottom in the given horizons were measured. Using simulation data from the MITgcm software complex, which is designed to study geohydrodynamic processes of a wide range of scales: from convection in small reservoirs (including experimental wells) to global circulation structures and thermohaline currents, the distribution of hydrological parameters over four tidal cycles was constructed.
Analysis of the features of the manifestation of historical and hypothetical tsunami on the coast of. Sakhalin. Computational experiments of historical and hypothetical tsunami have been carried out with the help of NAMIDANCE computer complex. Their sources were located in the waters of the Sea of Japan and south of the southern Kuril Islands in the Pacific Ocean.
The distribution of the maximum wave heights from each tsunami along the entire coast of Fr. Sakhalin. The areas of the Sea of Okhotsk and the Sea of Japan, as well as the coastal water area of Fr. Sakhalin, where the largest tsunami amplitudes were manifested. The resulting computational results were compared with the observational data.

Development and testing of an ultra-small remote-controlled ship. In the SKB THEMSELVES
Theoretical and experimental research has been carried out for a long
The development of autonomous marine self-propelled instrument
Sov., The construction of ultra-small platforms for research in marine conditions – superma-
(TVET).

Zaitsev AI, Semin SV, Kostenko IS Natural measurements and numerical modeling of hydrological parameters in Lake Tunaicha // T 78, Proceedings of Nizhny Novgorod State Technical University. R.E. Alekseeva / NSTU. R.E. Alekseeva. – Nizhny Novgorod, 2014. № 1 (103). – P. 46-52.

Irina Kostenko, Andrey Zaytsev, Andrey Kurkin and Ahmet Yalciner. Display of the historical and hypothetical tsunami on the coast of Sakhalin Island. Geophysical Research Abstracts. EGU General Assembly 2014. Vol. 16, EGU201-752, 2014.

D.G. Lyakhov, A.I. Kim, D.D. Minaev Development and testing of an ultra-small remote-controlled ship // Underwater Research and Robotics No. 1/17, 2014 P.48-57.

Catastrophic endogenous and exogenous processes, including extreme changes in space weather: the problems of forecasting and reducing the level of negative consequences

Changes in the intensity of tsunami waves during passage through the Kurile Islands were detected. Computational experiments show that when the tsunami source is located in the Pacific Ocean, about 80% of the tsunami energy from the Kuril Ridge reflects on the “fire ring” line and the waves pass weakly into the Sea of Okhotsk. Regardless of the location of sources along the Kuril Islands, the distribution of tsunami impacts is similar: the wave penetrates the Sea of Okhotsk through the middle Kurile Islands, and a lesser intensity is observed in the northern Kuriles in the region of the Kamchatka Peninsula.
I.S. Kostenko, A.I. Zaitsev Study of the variation in tsunami intensity during passage through the Kurile Islands. Materials of the International Scientific and Practical Conference on Graphic Information Technologies and Systems “Cograph 2013”, 2013. Nizhny Novgorod, pp. 146 – 149. Nizhny Novgorod, Nizhny Novgorod State Technical University. R.E. Alekseeva

Scientific basis for the development of methods, technologies and tools for studying the surface and interior of the Earth, the atmosphere, including the ionosphere and magnetosphere of the Earth, hydrosphere and cryosphere; Numerical modeling and geoinformatics: spatial data infrastructure and GIS technologies

Based on the results of the system analysis of the relevance and relevance of the technical systems of environmental monitoring of the aquatic environment, an assessment of the feasibility of creating a comprehensive system of ecological water monitoring based on a series of prototypes of the stand-alone positioning station “Ecozond” is presented.
The architecture is developed, the measuring instrument of surface excitement is created and tested. Technical characteristics of the device correspond to the world analogues (AANDERAA). The analysis of the obtained sea level fluctuations in the area of Svobodny m. (Southeastern coast of Sakhalin Island) was carried out using linear and nonlinear theory of transformation, which allowed studying the methods of determining surface waves from bottom pressure data. Based on the results of measurements of the instrument in real
76 waves with a height of more than 0.5 m, falling under the definition of anomalous, were recorded.

A small-sized autonomous seismo-acoustic station (MASAS) has been designed to perform exploration work on oil and gas fields. MASAS records seismoacoustic signals from the outputs of a three-component seismic receiver and hydrophone. To use the seamless geological model, MASAC can be installed both on land and on the shelf at depths of up to 500 meters. Reliable return of the station is provided using: duplicate commands of the actuator; Light beacons; Active radio beacons; A satellite navigation system of the Glonass type and a low-orbit satellite communication system of the Gonets type. The capacity of continuous registration of digitized information up to 60 days, which is provided by solid-state memory of 4 flash cards with a capacity of 20 GB each.

A.E. Malashenko, V.V. Perunov, A.I. Chudakov Autonomous cyclic measuring instrument for hydrophysical fields of the marine environment “Aquazon” // Sensors and systems, 2013, No. 11., P. 61-67. Publisher: Sensid-Plyus (Moscow).

Patent for invention “Small-sized autonomous seismo-acoustic station” No. 2540454 of 10.02.2015.

Protected dissertational works, prepared from 2013 to 2015
Year on the basis of field experience of the institution. To be completed by organizations,
Who chose the reference group No. 29 “Technologies of plant growing”.

List of the most significant publications and monographs prepared by
Employees of the scientific organization for the period from 2013 to 2015
Mironenko MV, Malashenko AE, Vasilenko AM, Karachun LE, Leonenkov RV Nonlinear translucent hydroacoustics and means of marine instrument making in the creation of the Far Eastern radio-acoustic system for illuminating the atmosphere, the ocean and the earth’s crust, monitoring their fields of various physical nature. / Monograph. SKV SAMI FEB RAS. Publishing house of the Far Eastern Federal University, Vladivostok, 2014, 480 C. ISBN978-5-7444-2849-5.
Malashenko AE, Karachun LE, Perunov VV, Chudakov AI Investigation of the spatial-temporal characteristics of hydroacoustic signals and interference with the use of bulk soundproof antennas // Underwater Research and Robotics, 2013, No. 1 (15), pp. 33-37. ISSN 1992-4429 UNDERWATER INVESTIGATION AND ROBOTICS SCIENTIFIC AND TECHNICAL JOURNAL ABOUT EXPLORATION OCEAN PROBLEMS Malashenko A.E., Karachyun L.E., Perunov V.V., Chudakov A.I. STUDY OF SPATIOTEMPORAL CHARACTERISTICS OF SIGNALS AND NOISE USING
VOLUMETRIC SOUND-TRANSPARENT ANTENNAS // Underwater Investigation and Robotics. 2013. No 1 (15). P. 33-37 Publishing house IPMT FEB RAS (RINC, VAK)

Mironenko MV, V.I. Korochentsev, Malashenko AE, A.M. Vasilenko, Karachun L.E. Formation of the gravitational field by accelerated moving masses, measurement of its characteristics by the method of translucent sonarization // Sensors and systems, 2013, No. 12., S. 2-6 Publisher: Sensid-Plus (Moscow) ISSN: 1992-7185 (RINC, VAK)
A.E. Malashenko, V.V. Perunov, A.I. Chudakov Autonomous cyclic measuring instrument for hydrophysical fields of the marine environment “Aquazond” // Sensors and systems, 2013, No. P., P. 61-67. Publisher: Sensid-Plyus (Moscow) ISSN: 1992-7185 (RINC, VAK)
Emelianenko VF, Kalenov E.N. Simulation model of a hydroacoustic station for detection of marine objects // Sensors and systems, No. 12,2014, pp. 55-57. (RINC, WAC)
Lyakhov DG, Kim AI, Minaev DD Development and testing of an ultra-small remote-controlled ship // Underwater Research and Robotics No. 1/17, 2014 P.48-57. (RINC, WAC)
Zaytsev A., Kostenko I., Kurkin A., Pelinovsky E., and Yalciner A. Simulation scenarios of the tsunami in the Okhotsk Sea (due to the earthquake of 05/24/2013) // Turkish Journal of Earth Sciences, Vol .. P.
Ceren Ozer Sozdinler, Ahmet Cevdet Yalciner, and Andrey Zaytsev. Investigation of Tsunami Hydrodynamic Parameters in Inundation Zones with Different Structural Layouts // Pure Appl. Geophys. Vol. 172 (2015), 931-952 DOI 10.1007 / s00024-014-0947-z. (WOS)
Ceren Ozer Sozdinler, Ahmet Cevdet Yalciner, Andrey Zaytsev, Anawat Suppasri and Fumihiko Imamura. Investigation of Hydrodynamic Parameters and the Effects of Breakwaters During the 2011 Great East Japan Tsunami in Kamaishi Bay. // Pure Appl. Geophys. DOI 10.1007 / s00024-015-1051-8. (WOS)
Dilmen, D.I., Kemec, S., Yalciner, A. C., Duzgiin, S., Zaytsev, A. Development of a
Tsunami Inundation Map in Detecting Tsunami Risk in Gulf of Fethiye, Turkey (2015) Pure
And Applied Geophysics, 172 (3-4), pp. 921-929. Scopus number: 2-s2.0-84924406601 Identity-
Fictional number: WOS: 000350895700019. (WOS)

IMPACT factor

Pure and Applied Geophysics 1.618

Sensors and systems 0.235

TURKISH JOURNAL OF EARTH SCIENCES 1.172 Underwater Research and Robotics 0.301

Grants for the conduct of fundamental research, implemented with the support of the Russian Foundation for Basic Research, the Russian Humanitarian Scientific Foundation, the Russian Science Foundation and others
“Organization and conduct of a complex expedition in the Sea of Okhotsk to study the hydrodynamic features of currents, wind and infragravitational sea

Waves, seiches and solitary waves, the transformation of their energy in the shelf zone “Comprehensive program of fundamental research FEB RAS IT. ZP “Far East” (section 8), 15-1-1-045e.

The architecture is developed, the measuring instrument of surface excitement is created and tested. The technical characteristics of the device correspond to the world analogues. The analysis of the obtained sea level fluctuations using the linear and nonlinear theory was carried out, which allowed studying the methods of determining surface waves from bottom pressure data.

“Wave processes affecting coastal structures: field studies and numerical modeling”. Comprehensive Program of Basic Research of the Far Eastern Branch of the Russian Academy of Sciences 42P Far East (section 1), 15-I-1-044

Numerical simulation of generation and evolution of internal waves in the framework of a fully-nonlinear hydrodynamic model for conditions close to the real oceanographic conditions of the island is carried out. Sakhalin.

Areas in which the bottom soil transfer processes are likely to affect the character of the underwater relief forms are determined, which in turn is related, as well as the processes of mixing and changes in ocean temperature in the coastal zone are investigated.

“Development of advanced technology for operational monitoring of hydrological and ice characteristics of marine areas” Comprehensive program of fundamental research FEB RAS

III. ZP “Far East” (section 7), 15-IV-1-006

The results of experimental studies of the characteristics of the hydroacoustic information transfer channel at a specially equipped testing range (Lake Tunaicha on Sakhalin Island) are analyzed, within which direct measurements of the vertical velocity profile of sound were carried out in winter. During the research, the possibilities and characteristics of the information transfer channel using digital sonar modems were evaluated.

Program-analytical complex for modeling and forecasting of dangerous marine phenomena in the coastal zone. SP-1935.2012.5 (Scholarship of the President of the Russian Federation on priority scientific areas).

Development and implementation of a software-analytical complex for modeling and forecasting of dangerous marine phenomena in the coastal zone.

Marine natural disasters in the coastal zone: numerical simulation and full-scale experiments. 13-III-B-07-143 (Grant FEB RAS).

The study of wave processes on the sea surface in a wide frequency range with the help of numerical simulation and new modern technical means.

Investigation of marine natural disasters in a wide frequency range in the Southern part of the Sea of Okhotsk. 13-SH-D-07-041 (Grant of the Far East Branch of the Russian Academy of Sciences).

Assessment of the possibility of potentially dangerous phenomena in the southern part of the Sea of Okhotsk. Investigation of wave, spectral and spatial characteristics of sea level fluctuations in a given area, both in calm conditions and during a storm.

Study of tsunami distribution in the coastal zone of the Far Eastern region of Russia. 13-III-B-07-052 (Grant of the Far East Branch of the Russian Academy of Sciences).

Conducting computational experiments using nested small bathymetry to calculate energy losses during the passage of tsunami waves through the straits of the Kuril Islands. Calculation of wave characteristics, flood zones in tsunamis for a number of limited water areas (bays, bays) and assessment of tsunami risk for these water areas.

Scientific and technical project of dual purpose (competition of innovative projects FEB RAS) 13-NTPP-05

Development and creation of a prototype of a scalable geographically distributed information and measurement network as an integral component of a geo-environmental monitoring system that provides dynamic control of underwater space in the interests of ensuring environmental safety of the Russian Federation.

Scientific and technical project of dual purpose (competition of innovative projects of FEB RAS) 13-NTP P-06

Development of technologies for the creation of an ultra-small autonomous remote-controlled ship (SmTK) for increased seaworthiness for engineering surveys and ecological monitoring of marine areas and estuaries of rivers.

The grants realized on the basis of the field experimental work of the organization at
Support of Russian and international scientific foundations. To be completed by
Who chose reference group No. 29, “Plant-
Tion. ”
Information not provided

INNOVATIVE POTENTIAL OF SCIENTIFIC ORGANIZATION

The most significant results of search and applied

Research

Search and applied projects implemented in the framework of federal
Targeted programs, as well as with the support of development funds in the period from 2013
To 2015
Information not provided

The innovative potential of a scientific organization

Availability of technological infrastructure for applied research
Experimental and experimental production of SCR SAMI DVO RAN performs work on the production of mock-ups and prototypes of products. The production equipment is located in a separate building with its water supply and power supply system. There are separate access roads and own loading and unloading mechanisms. Experimental and experimental production of SCR SAMI DVO RAS is equipped with the necessary machine tools, it includes the following working areas:

Micro-arc oxidation;
Pressure tests;
Climatic tests;
Screw-cutting lathe machine tools;
Milling-grooving machine tools;
Grinding site;
Blank plot.
The list of the most significant developments of the organization that were introduced
For the period from 2013 to 2015
Small-sized autonomous seismo-acoustic station.
A small-sized autonomous seismo-acoustic station (MASAS) has been designed to perform exploration work on oil and gas fields. MASAS records seismoacoustic signals from the outputs of a three-component seismic receiver and hydrophone. To use the seamless geological model, MASAC can be installed both on land and on the shelf at depths of up to 500 meters. Reliable return of the station is provided using: duplicate commands of the actuator; Light beacons; Active radio beacons; A satellite navigation system of the Glonass type and a low-orbit satellite communication system of the Gonets type. The capacity of continuous registration of digitized information up to 60 days, which is provided by solid-state memory of 4 flash cards with a capacity of 20 GB each. Received a patent for an invention “Small-sized autonomous seismo-acoustic station” No. 2540454 of 10.02.2015.

SKV SEMI DVO RAN participates in international projects aimed at
Ensure tsunamisecurity of ports and coastal areas;
Waving tsunami, informing the population about possible threats. The objectives of these
Work includes new statistical studies to assess the long-term
Repetition and tsunami hazards, development of numerical methods for tsunami modeling,
Methods of hazard assessment, vulnerability and risk.

EXPERT AND CONTRACTUAL ACTIVITIES OF THE ORGANIZATION

Expert activity of scientific organizations

Preparation of normative and technical documents of the international, inter-state
Of national and national significance, including standards, norms, rules,
Technical regulations and other regulatory documents approved by the
Federal executive authorities, international and intergovernmental
By the
First Deputy Director of SRBA MR FEB RAS Ph.D. Malashenko A.E. Is a member of the Scientific and Expert Council under the Government of the Sakhalin Oblast, is the head of the section “Information and GIS-technologies”.

First Deputy Director of SRBA MR FEB RAS Ph.D. Malashenko A.E. Is a member of the Scientific Council on the Complex Problem “Hydrophysics” under the Presidium of the Russian Academy of Sciences.

Deputy Director for Research Dr.Sc. Yakutov. I.N. Is included in the Federal Register of Experts of the Russian Federation in the scientific and technical sphere and is involved in the work of dissertational councils as a member of the dissertational council, which is introduced into the composition by a separate decision (DS of FSUE TsNII Tsentr) and as an expert of the Russian Federation in the scientific and technical sphere .

Performing research and development work and services in the interests of

Other organizations

The list of the most significant research, development and
And technological works and services performed under contracts for the period
2013-2015
The most significant projects of SRBA MR FEB RAS are the work on the implementation of the state defense order. Financing and labor costs for these projects are on average 80% of the total. Under the terms of the agreement SRBA MR FEB RAS has no rights to present the results of works in the public domain.

Other indicators that testify to the leading position of the organization in the relevant scientific direction (are presented at the request of the organization in free form)

Other indicators of the organization’s leading position
In the relevant scientific direction, as well as information that the
Ganisation wants to report additional information