Selskabets studietur Belgien 23.-26. august 2018

Studieturen 2018 var ledet af Selskabets næstformand Jørgen Burchardt, som havde arrangeret den i samarbejde med professor i ingeniørvidenskab ved universitetet i Gent, Philippe van Bogaert. Denne havde tillige uddannelse som turistguide og stod for den praktiske del af arrangementet, der bl.a. indebar overnatninger i Antwerpen og Gent, bustransport og besøg på udmærkede spisesteder. I turen indgik sight-seeing i Antwerpen, Gent, Mechelen og Brügge samt besøg på arbejdspladser langs Albertkanalen (Vlaamse Waterweg), hvor man er i færd med at udskifte vejbroerne, og hos firmaet Aelterman i Gent, som konstruerer broer, sluser (sluseportene bygges i Korea) og andre stålkonstruktioner

The Day You Gave Us, Lord, Is Ended: SATB Choir

6 pages

Optimization of neural networks for time-domain simulation of mooring lines

When using artificial neural networks in methods for dynamic analysis of slender structures, the computational effort associated with time-domain response simulation may be reduced drastically compared to classic solution strategies. This article demonstrates that the network structure of an artificial neural network, which has been trained to simulate forces in a mooring line of a floating offshore platform, can be optimized and reduced by different optimization procedures. The procedures both detect and prune the least salient network weights successively, and besides trimming the network, they also can be used to rank the importance of the various network inputs. The dynamic response of slender marine structures often depends on several external load components, and by applying the optimization procedures to a trained artificial neural network, it is possible to classify the external force components with respect to importance and subsequently determine which of them may be ignored in the analysis. The performance of the optimization procedures is illustrated by a numerical example, which shows that, in particular, the most simple procedures are able to remove more than half of the network weights in an artificial neural network without significant loss of simulation accuracy. </jats:p

Comparison of Neural Network Error Measures for Simulation of Slender Marine Structures

Training of an artificial neural network (ANN) adjusts the internal weights of the network in order to minimize a predefined error measure. This error measure is given by an error function. Several different error functions are suggested in the literature. However, the far most common measure for regression is the mean square error. This paper looks into the possibility of improving the performance of neural networks by selecting or defining error functions that are tailor-made for a specific objective. A neural network trained to simulate tension forces in an anchor chain on a floating offshore platform is designed and tested. The purpose of setting up the network is to reduce calculation time in a fatigue life analysis. Therefore, the networks trained on different error functions are compared with respect to accuracy of rain flow counts of stress cycles over a number of time series simulations. It is shown that adjusting the error function to perform significantly better on a specific problem is possible. On the other hand. it is also shown that weighted error functions actually can impair the performance of an ANN