Comparison of Mathematical Models for the HUGIN 4500 AUV Based on Experimental Data

2007 Symposium on Underwater Technology and Workshop on Scientific Use of Submarine Cables and Related Technologies Pub Date : 2007-04-17 DOI:10.1109/UT.2007.370776

O. Hegrenses, O. Hallingstad, B. Jalving

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引用次数: 44

Abstract

This paper reports the development and comparison of several mathematical models for describing the response of the HUGIN 4500 AUV as a function of measured actuator inputs. As a crucial step in fitting the derived models to experimental field data, a combination of dedicated experiments and least-squares estimation is applied in order to obtain an estimate of the sea current, and properly compensate for it during the identification stage. The established models are extensively cross-validated with uncorrelated data, which is a standard step in system identification to prevent over-fitting observed data. The vehicle response predicted by the proposed models shows good agreement with real measurements. The possible use of mathematical vehicle models includes control and navigation system design, applications to fault detection and integrity, and vehicle design evaluation. The content of this paper is motivated from the perspective of developing second generation underwater navigation systems, tightly integrating model-based velocity estimates and knowledge of commanded and measured actuator signals.

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基于实验数据的HUGIN 4500水下航行器数学模型比较

本文报道了几种描述HUGIN 4500水下航行器响应随测量驱动器输入函数的数学模型的发展和比较。为了得到海流的估计值，并在识别阶段对其进行适当的补偿，将专用实验与最小二乘估计相结合，是将所得模型与实验场数据拟合的关键步骤。建立的模型与不相关的数据进行广泛的交叉验证，这是系统识别的标准步骤，以防止观测数据过拟合。所提模型预测的车辆响应与实际测量结果吻合较好。数学车辆模型的可能用途包括控制和导航系统设计，故障检测和完整性的应用，以及车辆设计评估。本文的内容是从开发第二代水下导航系统的角度出发，将基于模型的速度估计与命令和测量的执行器信号的知识紧密结合起来。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2007 Symposium on Underwater Technology and Workshop on Scientific Use of Submarine Cables and Related Technologies

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