Conferences related to Underwater technology

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2020 IEEE International Instrumentation and Measurement Technology Conference (I2MTC)

The Conference focuses on all aspects of instrumentation and measurement science andtechnology research development and applications. The list of program topics includes but isnot limited to: Measurement Science & Education, Measurement Systems, Measurement DataAcquisition, Measurements of Physical Quantities, and Measurement Applications.


2020 Optical Fiber Communications Conference and Exhibition (OFC)

The Optical Fiber Communication Conference and Exhibition (OFC) is the largest global conference and exhibition for optical communications and networking professionals. For over 40 years, OFC has drawn attendees from all corners of the globe to meet and greet, teach and learn, make connections and move business forward.OFC attracts the biggest names in the field, offers key networking and partnering opportunities, and provides insights and inspiration on the major trends and technology advances affecting the industry. From technical presentations to the latest market trends and predictions, OFC is a one-stop-shop.


ICASSP 2020 - 2020 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP)

The ICASSP meeting is the world's largest and most comprehensive technical conference focused on signal processing and its applications. The conference will feature world-class speakers, tutorials, exhibits, and over 50 lecture and poster sessions.


OCEANS 2020 - SINGAPORE

An OCEANS conference is a major forum for scientists, engineers, and end-users throughout the world to present and discuss the latest research results, ideas, developments, and applications in all areas of oceanic science and engineering. Each conference has a specific theme chosen by the conference technical program committee. All papers presented at the conference are subsequently archived in the IEEE Xplore online database. The OCEANS conference comprises a scientific program with oral and poster presentations, and a state of the art exhibition in the field of ocean engineering and marine technology. In addition, each conference can have tutorials, workshops, panel discussions, technical tours, awards ceremonies, receptions, and other professional and social activities.

  • OCEANS 2019 - Marseille

    Research, Development, and Operations pertaining to the Oceans

  • 2018 OCEANS - MTS/IEEE Kobe Techno-Ocean (OTO)

    The conference scope is to provide a thematic umbrella for researchers working in OCEAN engineering and related fields across the world to discuss the problems and potential long term solutions that concernnot only the oceans in Asian pacific region, but the world ocean in general.

  • OCEANS 2017 - Aberdeen

    Papers on ocean technology, exhibits from ocean equipment and service suppliers, student posters and student poster competition, tutorials on ocean technology, workshops and town hall meetings on policy and governmental process.

  • OCEANS 2016 - Shanghai

    Papers on ocean technology, exhibits from ocean equipment and service suppliers, student posters and student poster competition, tutorial on ocean technology, workshops and town hall meetings on policy and governmental process.

  • OCEANS 2015 - Genova

    The Marine Technology Society and the Oceanic Engineering Society of IEEE cosponsor a joint annual conference and exposition on ocean science, engineering and policy. The OCEANS conference covers four days. One day for tutorials and three for approx. 450 technical papers and 50-200 exhibits.

  • OCEANS 2014 - TAIPEI

    The OCEANS conference covers all aspects of ocean engineering from physics aspects through development and operation of undersea vehicles and equipment.

  • OCEANS 2013 - NORWAY

    Ocean related technologies. Program includes tutorials, three days of technical papers and a concurrent exhibition. Student poster competition.

  • OCEANS 2012 - YEOSU

    The OCEANS conferences covers four days with tutorials, exhibits and three days of parallel tracks that address all aspects of oceanic engineering.

  • OCEANS 2011 - SPAIN

    All Oceans related technologies.

  • OCEANS 2010 IEEE - Sydney

  • OCEANS 2009 - EUROPE

  • OCEANS 2008 - MTS/IEEE Kobe Techno-Ocean

  • OCEANS 2007 - EUROPE

    The theme 'Marine Challenges: Coastline to Deep Sea' focuses on the significant challenges, from the shallowest waters around our coasts to the deepest subsea trenches, that face marine, subsea and oceanic engineers in their drive to understand the complexities of the world's oceans.

  • OCEANS 2006 - ASIA PACIFIC

  • OCEANS 2005 - EUROPE


Oceans 2020 MTS/IEEE GULF COAST

To promote awareness, understanding, advancement and application of ocean engineering and marine technology. This includes all aspects of science, engineering, and technology that address research, development, and operations pertaining to all bodies of water. This includes the creation of new capabilities and technologies from concept design through prototypes, testing, and operational systems to sense, explore, understand, develop, use, and responsibly manage natural resources.

  • OCEANS 2018 MTS/IEEE Charleston

    Ocean, coastal, and atmospheric science and technology advances and applications

  • OCEANS 2017 - Anchorage

    Papers on ocean technology, exhibits from ocean equipment and service suppliers, student posters and student poster competition, tutorials on ocean technology, workshops and town meetings on policy and governmental process.

  • OCEANS 2016

    The Marine Technology Scociety and the Oceanic Engineering Society of the IEEE cosponor a joint annual conference and exposition on ocean science, engineering, and policy. The OCEANS conference covers four days. One day for tutorials and three for approx. 500 technical papers and 150 -200 exhibits.

  • OCEANS 2015

    The Marine Technology Scociety and the Oceanic Engineering Society of the IEEE cosponor a joint annual conference and exposition on ocean science, engineering, and policy. The OCEANS conference covers four days. One day for tutorials and three for approx. 450 technical papers and 150-200 exhibits.

  • OCEANS 2014

    The OCEANS conference covers four days. One day for tutorials and three for approx. 450 technical papers and 150-200 exhibits.

  • OCEANS 2013

    Three days of 8-10 tracks of technical sessions (400-450 papers) and concurent exhibition (150-250 exhibitors)

  • OCEANS 2012

    Ocean related technology. Tutorials and three days of technical sessions and exhibits. 8-12 parallel technical tracks.

  • OCEANS 2011

    The Marine Technology Society and the Oceanic Engineering Scociety of the IEEE cosponsor a joint annual conference and exposition on ocean science engineering, and policy.

  • OCEANS 2010

    The Marine Technology Society and the Oceanic Engineering Scociety of the IEEE cosponsor a joint annual conference and exposition on ocean science engineering, and policy.

  • OCEANS 2009

  • OCEANS 2008

    The Marine Technology Society (MTS) and the Oceanic Engineering Society (OES) of the Institute of Electrical and Electronic Engineers (IEEE) cosponsor a joint conference and exposition on ocean science, engineering, education, and policy. Held annually in the fall, it has become a focal point for the ocean and marine community to meet, learn, and exhibit products and services. The conference includes technical sessions, workshops, student poster sessions, job fairs, tutorials and a large exhibit.

  • OCEANS 2007

  • OCEANS 2006

  • OCEANS 2005

  • OCEANS 2004

  • OCEANS 2003

  • OCEANS 2002

  • OCEANS 2001

  • OCEANS 2000

  • OCEANS '99

  • OCEANS '98

  • OCEANS '97

  • OCEANS '96


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Periodicals related to Underwater technology

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Biomedical Engineering, IEEE Reviews in

The IEEE Reviews in Biomedical Engineering will review the state-of-the-art and trends in the emerging field of biomedical engineering. This includes scholarly works, ranging from historic and modern development in biomedical engineering to the life sciences and medicine enabled by technologies covered by the various IEEE societies.


Biomedical Engineering, IEEE Transactions on

Broad coverage of concepts and methods of the physical and engineering sciences applied in biology and medicine, ranging from formalized mathematical theory through experimental science and technological development to practical clinical applications.


Circuits and Systems for Video Technology, IEEE Transactions on

Video A/D and D/A, display technology, image analysis and processing, video signal characterization and representation, video compression techniques and signal processing, multidimensional filters and transforms, analog video signal processing, neural networks for video applications, nonlinear video signal processing, video storage and retrieval, computer vision, packet video, high-speed real-time circuits, VLSI architecture and implementation for video technology, multiprocessor systems--hardware and software-- ...


Circuits and Systems II: Express Briefs, IEEE Transactions on

Part I will now contain regular papers focusing on all matters related to fundamental theory, applications, analog and digital signal processing. Part II will report on the latest significant results across all of these topic areas.


Communications Letters, IEEE

Covers topics in the scope of IEEE Transactions on Communications but in the form of very brief publication (maximum of 6column lengths, including all diagrams and tables.)


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Xplore Articles related to Underwater technology

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Spontaneous switching in coupled biological oscillator systems constructed with living cells of the true slime mold

SICE 2004 Annual Conference, 2004

Coupled oscillator systems with oscillating cells of plasmodium of the true slime mold were constructed with a cell pattering method using microfabrication technique. Parameters in this system such as coupling strength can be systematically controlled like in computer simulations. We constructed three-oscillator systems in rings and observed spontaneous switching among typical spatio-temporal patterns even when coupling strength was fixed.


Advancements in ROV and trenching technology

OCEANS 2000 MTS/IEEE Conference and Exhibition. Conference Proceedings (Cat. No.00CH37158), 2000

The need for reliable, productive and reconfigurable machines working in deep water has led to a continuing evolution of underwater technology. An increase in remote operated vehicle (ROV) system reliability and flexibility has been achieved by the design of a new class of ROV to overcome previous ROVs' failures. The new system, Innovator/sup TM/, can work at depths up to ...


Establishment of Underwater Technology Research Center at the Institute of Industrial Science of the University of Tokyo and its activities on AUV development

Proceedings of the 2000 International Symposium on Underwater Technology (Cat. No.00EX418), 2000

In hopes to expand underwater observation and research, the Institute of Industrial Science (IIS) at the University of Tokyo started an extensive research and development of autonomous underwater vehicle (AUV) in 1984. Developed AUV are the "R-One Robot" and two "Twin-Burgers" and so on. The R-One Robot is equipped with a closed cycle Diesel engine system and it successfully completed ...


Ocean technology in China

IEEE Journal of Oceanic Engineering, 1985

Much of the recent Canadian activity in marine technology has focused on development of capabilities in Arctic waters, and on the update and replacement of naval vessels. This paper describes some of the significant projects and programs now under way, and suggests future research and development requirements.


The development and application of underwater technology in Taiwan

Proceedings of the 2002 Interntional Symposium on Underwater Technology (Cat. No.02EX556), 2002

Taiwan has been building up facilities and manpower for ocean technology for more than thirty years. In addition to fisheries, shipbuilding, and coastal engineering, the government has also provided sustained support for the development of underwater technology for ten years. Underwater technology has attracted increasing attention because it is the basis for sustainable development and preservation of our ocean environment. ...


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Educational Resources on Underwater technology

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IEEE-USA E-Books

  • Spontaneous switching in coupled biological oscillator systems constructed with living cells of the true slime mold

    Coupled oscillator systems with oscillating cells of plasmodium of the true slime mold were constructed with a cell pattering method using microfabrication technique. Parameters in this system such as coupling strength can be systematically controlled like in computer simulations. We constructed three-oscillator systems in rings and observed spontaneous switching among typical spatio-temporal patterns even when coupling strength was fixed.

  • Advancements in ROV and trenching technology

    The need for reliable, productive and reconfigurable machines working in deep water has led to a continuing evolution of underwater technology. An increase in remote operated vehicle (ROV) system reliability and flexibility has been achieved by the design of a new class of ROV to overcome previous ROVs' failures. The new system, Innovator/sup TM/, can work at depths up to 3500 m. Its configuration with a system manipulator package and a complete survey suite allows real-time performance and eliminates reconfiguration requirements. Thanks to its flexibility and ability to transfer power to other modules, new packages can be integrated with it to accomplish different tasks. The Centaur combines Innovator/sup TM/ and a tracked trenching skid. It can mate and unmate underwater to perform as a free-swimming or seabed tractor for survey, maintenance and burial tasks. Further developments are the free flying trenchers IT300 and Sedna. Both these machines are a good example of integration between a skid equipped with packages for cable burial and, in the case of Sedna, de-burial. A slightly modified Innovator/sup TM/ meets the demands of the high and very high power needed for the performance requested. An innovative technology and new materials have been applied to transfer such a high power with small diameter umbilical cables. The key concepts offering high flexibility to these vehicles are: the possibility of power sharing among the utilities on the basis of system demands; an easy reconfiguration of the trenching system to satisfy a wider range of tasks.

  • Establishment of Underwater Technology Research Center at the Institute of Industrial Science of the University of Tokyo and its activities on AUV development

    In hopes to expand underwater observation and research, the Institute of Industrial Science (IIS) at the University of Tokyo started an extensive research and development of autonomous underwater vehicle (AUV) in 1984. Developed AUV are the "R-One Robot" and two "Twin-Burgers" and so on. The R-One Robot is equipped with a closed cycle Diesel engine system and it successfully completed a twelve hour operation of long range autonomous diving in the Pacific Ocean in 1998. Utilizing the testbed robots, many intelligent systems, especially those for underwater vision systems have been developed, The success of these AUV at the IIS has led to the establishment of the "Underwater Technology Research Center" which opened on April 1st, 1999. This new center also plans to collaborate both nationally and internationally with other facilities for further research for development of AUV and other new underwater observation systems. This paper presents what the IIS did in the field of AUV technology and what the new research center is going to do.

  • Ocean technology in China

    Much of the recent Canadian activity in marine technology has focused on development of capabilities in Arctic waters, and on the update and replacement of naval vessels. This paper describes some of the significant projects and programs now under way, and suggests future research and development requirements.

  • The development and application of underwater technology in Taiwan

    Taiwan has been building up facilities and manpower for ocean technology for more than thirty years. In addition to fisheries, shipbuilding, and coastal engineering, the government has also provided sustained support for the development of underwater technology for ten years. Underwater technology has attracted increasing attention because it is the basis for sustainable development and preservation of our ocean environment. Researchers on underwater technology in Taiwan have also gradually learned to assume a view of their research based on regional and international interests. This talk briefly describes aspects related to the current status and prospect of ocean and underwater technology in Taiwan. The development of an underwater robotic vehicle is used as an example.

  • Effects of input power fluctuations on passive sonar receiver performance

    Passive sonar receivers operate in environments producing signals and noise with fluctuating power envelopes. The effect of these fluctuations on receiver performance was investigated by a combination of analysis and a Monte Carlo simulation in which signals and noise were represented by members of compound random processes. The receiver was represented by a multichannel analog with an adaptive detection threshold. It was determined that both detection and false alarm probability depend on the relationship of the relaxation times of the input power envelopes and the post-rectification averaging time of the receiver, as well as on the degree of fluctuation.

  • Comparative Evaluation Of A New Method For Helium Speech Unscrambling

    Current helium speech unscramblers use a time-domain process which, while fairly effective, produces poor quality speech, is vulnerable to noise-induced errors, and suffers fundamental limitations which reduce its usefulness at extreme depths. A new frequency-domain algorithm has been developed which overcomes all of these problems. This paper presents a comparison of the new algorithm to various time-domain devices. The results of three intelligibility tests are reported, one for the first time. Speech quality is compared via a demonstration tape. The results show that the new unscrambler offers intelligibility equivalent to current processors at moderate depth and clearly superior to them at extreme depths, while giving better speech quality and noise robustness at all depths.

  • Subsea Technology Development In Canada

    None

  • Fuel cell power system development for submersibles

    DARPA is sponsoring programs at International Fuel Cells (IFC) to develop proton exchange membrane (PEM) fuel cell power systems for marine application. One program is focused on a fuel cell power system for use in an unmanned underwater vehicle (UUV). Another program, part of DARPA's advanced submarine technology (Subtech) efforts, is developing and demonstrating the technology to generate hydrogen from methanol and to supply hydrogen from a regenerable metal hydride bed for use with a PEM fuel cell. The authors report the progress and hardware demonstrations made under the UUV program, the Subtech program, and R&D activities toward practical submersible fuel cell power systems. This technology is ideally suited for use in the closed environment of a submersible. A concept was demonstrated for the generation of hydrogen from the chemical reaction of a metal hydride and water to form a metal hydroxide.<<ETX>>

  • Model experiment of a launcher of a Deep-Sea Monitoring Robot System

    National Maritime Research Institute (NMRI), in cooperation with Underwater Technology Research Center, Institute of Industrial Science, University of Tokyo, is developing a Compact Deep-Sea Monitoring Robot System for investigation of sunken ships in deep sea. This system is consisted of a launcher and a small vehicle, and it has characteristics of both AUV and ROV. A launcher corresponds with its mother ship by using optical fiber cable. There is no umbilical cable between a launcher and a vehicle, and the communication is performed by acoustic communication. A launcher submerges holding a vehicle by gravity. It controls its rudders for approaching to a target point. Just before reach the sea bottom, a launcher releases an anchor, launches a vehicle to start mission. In order to pursue the best configuration for effective horizontal movement during descending motion, preliminary calculation and experiments were carried out for two types of configurations, a fuselage with fins and rudders and a fuselage with rudders but no fins. This paper describes the results of calculation and experiments at a deep-sea model basin. The basic mechanism of descend were confirmed.



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