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Tracking controller for ship manoeuvring in a shallow or confined fairway: design, comparison and application
Chen, C.; Verwilligen, J.; Mansuy, M.; Eloot, K.; Lataire, E.; Delefortrie, G. (2021). Tracking controller for ship manoeuvring in a shallow or confined fairway: design, comparison and application. Appl. Ocean Res. 115: 102823. https://dx.doi.org/10.1016/j.apor.2021.102823
In: Applied Ocean Research. CML Publications/Elsevier: Southampton. ISSN 0141-1187; e-ISSN 1879-1549
Peer reviewed article  

Available in  Authors 
  • VLIZ: Non-open access 366206 [ request ]
  • Waterbouwkundig Laboratorium: Non-open access 376364 [ request ]

Keywords
    Harbours and waterways > Manoeuvring behaviour > Bank effects
    Harbours and waterways > Manoeuvring behaviour > Currents
    Harbours and waterways > Manoeuvring behaviour > Influence under keel clearance
    Harbours and waterways > Safety  > Risk analysis
    Simulations
Author keywords
    Fast-time simulation; Tracking controller; Speed control; Shallow or confined water

Authors  Top 
  • Chen, C.
  • Verwilligen, J.
  • Mansuy, M.
  • Eloot, K.
  • Lataire, E.
  • Delefortrie, G.

Abstract
    The present study introduces a new tracking controller for fast-time simulation in shallow or confined water. The performance of the developed controller is investigated by simulation studies with a container ship in a confined tidal environment. Firstly, a novel tracking controller was designed and applied in a fast-time manoeuvring simulator with a mathematical manoeuvring model identical to that of the full mission bridge simulators of Flanders Hydraulics Research (FHR). Prior to the simulation runs, a statistical AIS-analysis was carried out to determine the reference speeds along the trajectory. Then, the proposed controller was tested via navigation simulations on the Western Scheldt River, flowing through the Netherlands and Belgium, with realistic environment scenarios. Comparisons were conducted between the proposed tracking controller and the present prescience model based tracking controller (PMTC) used in the simulator both in calm water conditions and in tidal conditions covering a full tidal cycle. The results show that both tracking controllers are able to provide satisfactory tracking performance. Nevertheless, compared with PMTC, the proposed tracking controller reveals some important advantages such as a better speed control, a significant reduction of the computational cost, etc. In conclusion, the designed tracking controller can be applied for fast-time simulation in shallow or confined water with high accuracy.

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