Intelligent Transport Systems – From Research and Development to the Market Uptake. First International Conference, INTSYS 2017, Hyvinkää, Finland, November 29-30, 2017, Proceedings

Research Article

Health Monitoring Strategies for Multifunctional Vessels with Modular Mission-Oriented Architecture

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  • @INPROCEEDINGS{10.1007/978-3-319-93710-6_13,
        author={Igor Kabashkin and Andrejs Zvaigzne},
        title={Health Monitoring Strategies for Multifunctional Vessels with Modular Mission-Oriented Architecture},
        proceedings={Intelligent Transport Systems -- From Research and Development to the Market Uptake. First International Conference, INTSYS 2017, Hyvink\aa{}\aa{},  Finland,  November 29-30, 2017, Proceedings},
        proceedings_a={INTSYS},
        year={2018},
        month={7},
        keywords={Modular ships Diagnostics Test system Reliability},
        doi={10.1007/978-3-319-93710-6_13}
    }
    
  • Igor Kabashkin
    Andrejs Zvaigzne
    Year: 2018
    Health Monitoring Strategies for Multifunctional Vessels with Modular Mission-Oriented Architecture
    INTSYS
    Springer
    DOI: 10.1007/978-3-319-93710-6_13
Igor Kabashkin1,*, Andrejs Zvaigzne2
  • 1: Transport and Telecommunication Institute
  • 2: Latvian Maritime Academy
*Contact email: kiv@tsi.lv

Abstract

Intelligent transport systems (ITS) are today one of the main stream for development of high reliable smart transport means. Health and usage monitoring systems (HUMS) is one of the type of ITS for collection of diagnostics data and processing to help ensure dependability and safety of transport means. The maritime industry faces more stringent requirements for the efficient use of ship technologies. Modular construction is one of the effective methods used for this purpose. Periodical operation for different type of modules are typical for modular mission-oriented multifunctional vessels (MMOMV). The active periods of operation during mission for such ships is combined with long pauses in operation. In the case of module’s failure during pause of its active operation, there is the probability of mission failure during relatively short mission sessions. The article analyses the dependability of the MMOMV module for different methods of testing with integrated health and usage monitoring system. The diagnostic procedures proposed and the optimal value of the periodicity of monitoring is determined that minimize the unavailability of the mission operation for MMOMV.