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An intelligent winch prototyping tool

Bye, Robin Trulssen; Osen, Ottar; Rekdalsbakken, Webjørn; Pedersen, Birger Skogeng; Hameed, Ibrahim
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Accepted version
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URI
http://hdl.handle.net/11250/2492965
Date
2017
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  • Institutt for havromsoperasjoner og byggteknikk [439]
  • Institutt for IKT og realfag [256]
  • Publikasjoner fra CRIStin - NTNU [20842]
Abstract
In this paper we present a recently developed intelligent winch prototyping tool for optimising the design of maritime winches, continuing our recent line of work using artificial intelligence for intelligent computer-automated design of offshore cranes. The tool consists of three main components: (i) a winch calculator for determining key performance indicators for a given winch design; (ii) a genetic algorithm that interrogates the winch calculator to optimise a chosen set of design parameters; and (iii) a web graphical user interface connected with (i) and (ii) such that winch designers can use it to manually design new winches or optimise the design by the click of a button. We demonstrate the feasibility of our work by a case study in which we improve the torque profiles of a default winch design by means of optimisation. Extending our generic and modular software framework for intelligent product optimisation, the winch calculator can easily be interfaced to external product optimisation clients by means of the HTTP and WebSocket protocols and a standardised JSON data format. In an accompanying paper submitted concurrently to this conference, we present one such client developed in Matlab that incorporates a variety of intelligent algorithms for the optimisation of maritime winch design.
Publisher
ECMS European Council for Modelling and Simulation

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