First Step Toward the Codesign of Planing Craft and Active Control Systems

Castro-Feliciano, Esteban L.; Sun, Jing; Troesch, Armin W.

Source: Journal of Offshore Mechanics and Arctic Engineering:;2017:;volume( 139 ):;issue: 001::page 14501

Author:

Castro-Feliciano, Esteban L.

Sun, Jing

Troesch, Armin W.

DOI: 10.1115/1.4034761

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: This paper takes a novel approach to the design of planing craft with active control systems (ACS) by codesigning the longitudinal center of gravity (lcg) and ACS, and compares its performance with a vessel where the lcg and ACS are designed sequentially (traditional approach). The vessels investigated are prismatic in shape. The ACS are modeled as forces on the vessel. The ACS controller is a linear quadratic regulator (LQR) designed using a reduced-order model of the vessel. In the design, only the calm-water drag is optimized. The simulated codesigned vessel had 10% lower calm water and mean seaway drag than the sequentially designed vessel. However, the codesigned vessel's seakeeping was poorer—vertical acceleration doses 25% higher. Results indicate that the traditional sequential design approach does not fully exploit the synergy between a planing craft and its ACS; as a first step, the stability constraints should be relaxed in the design exploration, and the ACS should be considered early in the design stage.

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First Step Toward the Codesign of Planing Craft and Active Control Systems

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Journal of Offshore Mechanics and Arctic Engineering

contributor author	Castro-Feliciano, Esteban L.
contributor author	Sun, Jing
contributor author	Troesch, Armin W.
date accessioned	2017-11-25T07:18:50Z
date available	2017-11-25T07:18:50Z
date copyright	2016/29/11
date issued	2017
identifier issn	0892-7219
identifier other	omae_139_01_014501.pdf
identifier uri	http://138.201.223.254:8080/yetl1/handle/yetl/4235439
description abstract	This paper takes a novel approach to the design of planing craft with active control systems (ACS) by codesigning the longitudinal center of gravity (lcg) and ACS, and compares its performance with a vessel where the lcg and ACS are designed sequentially (traditional approach). The vessels investigated are prismatic in shape. The ACS are modeled as forces on the vessel. The ACS controller is a linear quadratic regulator (LQR) designed using a reduced-order model of the vessel. In the design, only the calm-water drag is optimized. The simulated codesigned vessel had 10% lower calm water and mean seaway drag than the sequentially designed vessel. However, the codesigned vessel's seakeeping was poorer—vertical acceleration doses 25% higher. Results indicate that the traditional sequential design approach does not fully exploit the synergy between a planing craft and its ACS; as a first step, the stability constraints should be relaxed in the design exploration, and the ACS should be considered early in the design stage.
publisher	The American Society of Mechanical Engineers (ASME)
title	First Step Toward the Codesign of Planing Craft and Active Control Systems
type	Journal Paper
journal volume	139
journal issue	1
journal title	Journal of Offshore Mechanics and Arctic Engineering
identifier doi	10.1115/1.4034761
journal fristpage	14501
journal lastpage	014501-8
tree	Journal of Offshore Mechanics and Arctic Engineering:;2017:;volume( 139 ):;issue: 001
contenttype	Fulltext

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