论文信息 - Estimation of geometry-based manufacturing cost of complex offshore structures in early design stage

Estimation of geometry-based manufacturing cost of complex offshore structures in early design stage

ABSTRACT A scalar metric for the assessment of hull surface producibility was known to be useful in estimating the complexity of a hull form of ships or large offshore structures by looking at their shape. However, it could not serve as a comprehensive measuring tool due to its lack of important components of the hull form such as longitudinals, stiffeners, and web frames attached to the hull surface. To have a complete metric for cost estimation, these structural members must be included. In this paper, major inner structural members are considered by measuring the complexity of their geometric shape. The final scalar metric thus consists of the classes containing inner members with various curvature magnitudes as well as the classes containing curved plates with single and double curvature distribution. Those two distinct metrics are merged into a complete scalar metric that accounts for the total cost estimation of complex structural bodies.

[1] Jean-David Caprace,et al. Towards a short time “feature-based costing” for ship design , 2012 .

[2] D. Struik. Lectures on classical differential geometry , 1951 .

[3] Weoncheol Koo,et al. Hydrodynamic analysis of a floating body with an open chamber using a 2D fully nonlinear numerical wave tank , 2012 .

[4] G. Farin. Curves and Surfaces for Cagd: A Practical Guide , 2001 .

[5] Thomas Lamb. Shell Plate Definition Guide for Ship Designers (The National Shipbuilding Research Program) , 1994 .

[6] Jong Gye Shin,et al. A comprehensive line-heating algorithm for automatic formation of curved shell plates , 2004 .

[7] Jong Gye Shin,et al. An integrated approach to determine optimal process information of large-scale line-heating process with deformation simulation , 2004 .

[8] Michael G. Parsons,et al. A SCALAR METRIC FOR ASSESSING THE PRODUCIBILITY OF A HULL FORM IN EARLY DESIGN , 1999 .

[9] François Ziegler. Elements of Differential Geometry I, II, III, IV, V , 2009 .

[10] Thomas Lamb,et al. Shell Development Computer Aided Lofting - Is There a Problem or Not? (The National Shipbuilding Research Program) , 1993 .

[11] Rida T. Farouki,et al. Pythagorean-Hodograph Curves: Algebra and Geometry Inseparable , 2007, Geometry and Computing.