Submarine

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A submarine is a watercraft capable of independent operation below the surface of the water. (Wikipedia.org)






Conferences related to Submarine

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2020 IEEE Power & Energy Society General Meeting (PESGM)

The Annual IEEE PES General Meeting will bring together over 2900 attendees for technical sessions, administrative sessions, super sessions, poster sessions, student programs, awards ceremonies, committee meetings, tutorials and more


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.


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


2019 IEEE International Systems Conference (SysCon)

addresses the discipline of systems engineering,including theory, technology, methodology, andapplications of complex systems, system-of-systems,and integrated systems of national and globalsignificance.

  • 2018 Annual IEEE International Systems Conference (SysCon)

    The Conference addresses the discipline of systemsengineering, including theory, technology, methodology,and applications of complex systems, system-of-systems,and integrated systems of national and globalsignificance. It focuses on Systems Engineering for Complex Systems; and the conference caters to both practitioners andacademics, providing a forum to exchange ideas andexperiences on technology, methodology, applications,study cases, and practical experiences.

  • 2017 Annual IEEE International Systems Conference (SysCon)

    The IEEE International Systems Conference facilitates interactions among communities of interest on system-level problems andapplications. System-level thinking is essential in the worldtoday, not only for technical systems, but also for societyat large. The Conference addresses the discipline of systemsengineering, including theory, technology, methodology,and applications of complex systems, system-of-systems,and integrated systems of national and globalsignificance.

  • 2016 Annual IEEE Systems Conference (SysCon)

    The theme of the IEEE International SystemsConference is Engineering of Complex Systems, to includeSystems-of-systems, Systems Engineering, Systems Integration,and Systems Thinking

  • 2015 Annual IEEE Systems Conference (SysCon)

    The theme of the IEEE International Systems Conference is Engineering of Complex Systems, to include Systems-of-systems, Systems Engineering, Systems Integration, and Systems Thinking.

  • 2014 8th Annual IEEE Systems Conference (SysCon)

    This conference seeks to create an interactive forum forthe advancement of the practice of systems engineeringacross the multiple disciplines and specialty areasassociated with the engineering of complex systems. Theconference will provide a venue for systems engineeringpractitioners, managers, researchers, and educators toexchange innovative concepts, ideas, applications, andlessons learned addressing: Applications-oriented topics on large-scale systemsand system-of-systems in topics noted below

  • 2013 7th Annual IEEE Systems Conference (SysCon)

    Conference addresses systems, complex systems, systems-of-systems, critical systems, and the systems engineering disciplines needed to implement such large-scale or complex systems in the international arena.

  • 2012 6th Annual IEEE Systems Conference (SysCon)

    The IEEE Systems Conference is Engineering Complex Integrated Systems and Systems-of-Systems Implications for Systems Engineering, Systems Integration, and Systems Thinking.

  • 2011 IEEE International Systems Conference (SysCon)

    IEEE International Systems Conference Scope is Engineering of Complex Systems, to include Systems-of-systems, Large-scale Systems Integration, and Systems Engineering and Systems Thinking.

  • 2010 4th Annual IEEE Systems Conference

    The theme of the IEEE Systems Conference is Engineering Complex Integrated Systems and Systems-of-systems Implications for Systems Engineering, Systems Integration, and Systems Thinking.

  • 2009 3rd Annual IEEE Systems Conference

    Engineering Comles Integtared Systems and Systems-of-Systems - Implications for Systems Engineering, Systems Integration, and Systems Thinking

  • 2008 2nd Annual IEEE Systems Conference

    The theme of the IEEE Systems Conference is Engineering Complex Integrated Systems and Systems-of-systems- Implications for Systems Engineering, Systems Integration, and Systems Thinking.

  • 2007 1st Annual IEEE Systems Conference

    The theme of the IEEE Systems Conference is Engineering Complex Integrated Systems and Systems-of-systems - Implications for Systems Engineering, Systems Integration, and Systems Thinking.


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Periodicals related to Submarine

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Aerospace and Electronic Systems Magazine, IEEE

The IEEE Aerospace and Electronic Systems Magazine publishes articles concerned with the various aspects of systems for space, air, ocean, or ground environments.


Antennas and Propagation, IEEE Transactions on

Experimental and theoretical advances in antennas including design and development, and in the propagation of electromagnetic waves including scattering, diffraction and interaction with continuous media; and applications pertinent to antennas and propagation, such as remote sensing, applied optics, and millimeter and submillimeter wave techniques.


Applied Superconductivity, IEEE Transactions on

Contains articles on the applications and other relevant technology. Electronic applications include analog and digital circuits employing thin films and active devices such as Josephson junctions. Power applications include magnet design as well asmotors, generators, and power transmission


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.


Communications Magazine, IEEE

IEEE Communications Magazine was the number three most-cited journal in telecommunications and the number eighteen cited journal in electrical and electronics engineering in 2004, according to the annual Journal Citation Report (2004 edition) published by the Institute for Scientific Information. Read more at http://www.ieee.org/products/citations.html. This magazine covers all areas of communications such as lightwave telecommunications, high-speed data communications, personal communications ...


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Xplore Articles related to Submarine

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Design of Submarine “Open” Cables

2018 Optical Fiber Communications Conference and Exposition (OFC), 2018

Digital coherent receiver and GN model moved submarine transmission systems into the era of “open cables”. This new paradigm leads to consider new parameters to design and characterize open submarine systems independently of the terminal equipment.


Desing selection of DC & AC submarine power cable for offshore wind mill

2014 China International Conference on Electricity Distribution (CICED), 2014

Offshore wind mill is the key factor for countries over the world to use ocean resource and exploit ocean economy, is also one of our national important new energy development plans. Offshore wind farm construction started late in our country, offshore wind power technology need to be improved in practice. Due to the difference on offshore distance, installed capacity, marine ...


Research and design of DC500kV optical fiber composite submarine cable

2017 4th IEEE International Conference on Engineering Technologies and Applied Sciences (ICETAS), 2017

According to the project capacity requirement, the selection of system operating voltage level, the type of insulation material and the highest operation temperature of cable, simulation analysis by the current capacity capacity finite element software, then get the conductor DC resistance requirements, combined with the need of project laying environment, get the design of the appropriate conductor and structure and ...


IEE Colloquium on 'Submarine Optical Transmission Systems' (Digest No.45)

IEE Colloquium on Submarine Optical Transmission Systems, 1988

None


Design and optimization of large size conductor for submarine cable

2017 4th IEEE International Conference on Engineering Technologies and Applied Sciences (ICETAS), 2017

This article introduces the design method of two kinds of large size conductor of submarine cable, through the theoretical calculation, the multi-program choice, according to the actual trial production process requirements, it can be seen that the use of circular wire circular compact structure can get a large amount of compression and the wire will be extended, but the diameter ...


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Educational Resources on Submarine

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IEEE-USA E-Books

  • Design of Submarine “Open” Cables

    Digital coherent receiver and GN model moved submarine transmission systems into the era of “open cables”. This new paradigm leads to consider new parameters to design and characterize open submarine systems independently of the terminal equipment.

  • Desing selection of DC & AC submarine power cable for offshore wind mill

    Offshore wind mill is the key factor for countries over the world to use ocean resource and exploit ocean economy, is also one of our national important new energy development plans. Offshore wind farm construction started late in our country, offshore wind power technology need to be improved in practice. Due to the difference on offshore distance, installed capacity, marine condition, investment capacity and other conditions, selection of submarine cables is presented in a variety of ways. According to the typical capacity of domestic offshore wind farm, China has successfully developed 220 kV AC submarine cable and ± 200 kV DC submarine cable for export application in offshore wind farm. This paper introduces the typical configuration of three kinds of capacity for offshore wind farm and demonstrates the technical characteristics and design selection of different submarine cable.

  • Research and design of DC500kV optical fiber composite submarine cable

    According to the project capacity requirement, the selection of system operating voltage level, the type of insulation material and the highest operation temperature of cable, simulation analysis by the current capacity capacity finite element software, then get the conductor DC resistance requirements, combined with the need of project laying environment, get the design of the appropriate conductor and structure and size finally. Reference to the maximum electric field strength of the insulating material, design of the appropriate insulation layer thickness, make the insulation wire core Laplace field strength to meet the insulation requirements, at the same time to ensure the insulation temperature between inside and outside less than 20 °C at least. The material selection and thickness determination of the other process, must follow the rules of environmental requirements, international and domestic standards, the thickness is calculated by assuming diameter algorithm, and to meet the customers' needs add the optical fibers in the right location of the submarine cable, get the design of DC500kV large conductor section optical fiber composite DC submarine cable finally.

  • IEE Colloquium on 'Submarine Optical Transmission Systems' (Digest No.45)

    None

  • Design and optimization of large size conductor for submarine cable

    This article introduces the design method of two kinds of large size conductor of submarine cable, through the theoretical calculation, the multi-program choice, according to the actual trial production process requirements, it can be seen that the use of circular wire circular compact structure can get a large amount of compression and the wire will be extended, but the diameter of circular wire is relatively large and rigid, large and more cracks will be seen, or even the circular wire be pulled off. The use of shaped wire circular compact structure, through optimizing the mould design, the compression required is smaller, lower requirements to the traction of stranding machine and can get higher compression factor, better water blocking effect. The program c is finally choiced, the large cross-section DC submarine cable problem is solved successfully, this article consider the problem of single line chammfering, but the effect of pitch on conductor do not take into account.

  • Straight-line 4*2.5 gbit/s WDM transmission over 2600 km on a manufactured optically-amplified submarine cable system with 95 km repeater spacing

    Single wavelength optically amplified submarine system technology has rapidly moved towards maturity to meet requirements for high capacity long-haul undersea systems. The developments of wavelength division multiplexing (WDM) technologies for submarine applications will enable increased system capacity and enhanced network topologies for the provision of traffic between multiple landing points. A number of technical issues have to be addressed in the development of long-haul WDM transmission including the effect of a restricted concatenated amplifier gain bandwidth and also the accumulation of multi- channel non-linear interactions such as four-wave mixing and cross-phase modulation. We report the results of error-free 4*2.5 Gbit/s straight line transmission over 2600 km on a manufactured optically amplified submarine cable system with an average repeater spacing of 95 km. In these experiments channel power pre-emphasis was used to limit the signal-noise-ratio (SNR) imbalance resulting from the restricted concatenated amplifier bandwidth. Additionally unequal channel wavelength spacing gave a reduction in the effects of four-wave mixing products. System simulations confirm the experimental results indicating their applicability in predicting the performance of future high capacity WDM submarine links. These results show the potential for provision of economic system solutions for future submarine cable networks.<<ETX>>

  • The impact of optical technology on the submarine systems market

    The authors seek to review the technical developments, the economic benefits provided and the market growth in submarine optical transmission systems. The rapid acceptance of fibre optic technology is illustrated together with the resultant capacity implications. It is shown that the technology is undergoing rapid progress with a quick succession of systems which offer higher capacity and lower intrinsic capital cost through the deployment of a 1.5 micron capability. This carries the potential not only of cost savings on repeatered systems but also opens up a virtually new market in the supply of single span links.<<ETX>>

  • Research of HSIC-PID control to submarine depth near surface

    The vertical movement of submarine has some characteristics such as non- linearity, time-dependent parameter and Complex Interfering. The traditional PID control can control the precision, but the rudder is used frequently, which is bad to the invisibility and safety. On the base of submarine vertical movement model and the rule of vertical movement, this paper contacts human simulating intelligent control with PID control, forming a new control method named HSIC-PID. Aiming at model submarine, this paper does some simulation to the depth control in two circumstances, one is without disturbance outside, another is disturbed by offshore wave when submarine sails near the surface. The result proves that the HSIC-PID is efficacious.

  • IEEE Guide to the Factors to Be Considered in the Planning, Design, and Installation of Submarine Power and Communications Cables

    Replaced by 1120-2004 (SH/SS95271). IEEE Std 1120-1990, IEEE Guide to the Factors to Be Considered in the Planning, Design, and Installation of Submarine Power and Communications Cables, provides a checklist of factors to be considered in the planning, design, and installation of power and communications cables in a submarine environment. It does not attempt to provide complete cable design criteria.

  • Optical amplifiers for submarine cable systems

    In the coaxial era 1950-86 submarine system manufacturers were developing a new repeater design on average once every 7 years. Since the advent of optical fibres, this pace now appears leisurely. Market share is largely determined by the number of circuits/fibre and technological improvements are constantly evolving to increase this. Bit rates have rapidly moved from the initial 280 Mbit/s per fibre pair to the current position where orders have been placed for rates up to 1.6 Gbit/s. Furthermore, there seems to be no slowing down of the market demand. The challenge for the manufacturer in this new and fiercely competitive world is to maintain the quality levels that submarine applications demand, whilst introducing new components and techniques to cope with the ever higher bit rates. It is against this background that the possible introduction of optical amplifiers needs to be placed. This paper assesses the prospects for amplifier based systems, what they may look like, and what their limitations are likely to be.<<ETX>>



Standards related to Submarine

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