Fish locomotion modeling and simulation based on carp fish monitoring

2016 Al-Sadeq International Conference on Multidisciplinary in IT and Communication Science and Applications (AIC-MITCSA) Pub Date : 2016-05-09 DOI:10.1109/AIC-MITCSA.2016.7759906

A. I. Majeed, A. Ali

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Abstract

Building successful applications using mimicked robotic fish required a comprehensive study to the various parameters affecting fish's performance during swimming in water, such as thrusting force, swimming speed, manoeuvrability, etc. during various swimming behaviour including straight swimming, c-turn escape and s-shape maneuver. The high complexity of the underwater environments pushed the researchers to find new techniques for underwater robots modelling. Among these techniques, video model prediction technique plays an important role in describing the rules covering the relationships between the fish and its environment. This paper introduces an experimental method to model and then simulate, using Matlab, the main swimming modes of a carangiform Carp fish swimming based on the continuous video monitoring. The suggested models may be used in the future to build and control a real counterpart robotic fish and to produce the important autonomous navigation commands that govern the robotic fish locomotion. The realistic results of fish swimming simulation prove the validity of suggested models.

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基于鲤鱼监测的鱼类运动建模与仿真

利用模拟机器鱼建立成功的应用需要对影响鱼在水中游泳时的各种参数进行全面的研究，例如在各种游泳行为(包括直线游泳，c型转弯逃生和s型机动)中的推力，游泳速度，机动性等。水下环境的高度复杂性促使研究人员寻找水下机器人建模的新技术。在这些技术中，视频模型预测技术在描述鱼类与其环境之间关系的规则方面起着重要作用。本文介绍了一种实验方法，利用Matlab对基于连续视频监控的矢状鲤鱼的主要游泳方式进行建模和仿真。建议的模型可以在未来用于构建和控制真正的机器鱼，并产生控制机器鱼运动的重要自主导航命令。鱼类游泳仿真的实际结果证明了所提模型的有效性。

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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2016 Al-Sadeq International Conference on Multidisciplinary in IT and Communication Science and Applications (AIC-MITCSA)

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