棘皮蛇总科二维臂运动学研究的方法学探索。

IF 2.6 2区 生物学 Q1 ZOOLOGY
Mona Goharimanesh, Sabine Stöhr, Fereshteh Ghassemzadeh, Omid Mirshamsi, Dominique Adriaens
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引用次数: 1

摘要

海蛇尾,不像大多数其他棘皮动物,不使用它们的小管脚来运动,而是用它们灵活的手臂来产生划船或反向划船的运动。它们是行动最快的棘皮动物之一,具有复杂的运动行为能力。考虑到高物种多样性和形态变异性,缺乏对手臂灵活性和运动的种内和种间变异的正确理解。本研究的重点是探索研究海蛇尾运动和个体手臂使用变异性的方法。我们只对水平运动进行了二维(2D)图像处理。结果表明,弯曲度、盘位移和臂角是解释蛇状体运动的重要参数。开发了一个专用的Python脚本来计算所研究的运动参数,并将适用于所有五臂海蛇尾的结果可视化。这些结果可以作为受海蛇尾运动启发的机器人技术进一步研究的基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A methodological exploration to study 2D arm kinematics in Ophiuroidea (Echinodermata).

A methodological exploration to study 2D arm kinematics in Ophiuroidea (Echinodermata).

A methodological exploration to study 2D arm kinematics in Ophiuroidea (Echinodermata).

A methodological exploration to study 2D arm kinematics in Ophiuroidea (Echinodermata).

Brittle stars, unlike most other echinoderms, do not use their small tube feet for locomotion but instead use their flexible arms to produce a rowing or reverse rowing movement. They are among the fastest-moving echinoderms with the ability of complex locomotory behaviors. Considering the high species diversity and variability in morphotypes, a proper understanding of intra- and interspecies variation in arm flexibility and movement is lacking. This study focuses on the exploration of the methods to investigate the variability in brittle star locomotion and individual arm use. We performed a two-dimensional (2D) image processing on horizontal movement only. The result indicated that sinuosity, disc displacement and arm angle are important parameters to interpret ophiuroid locomotion. A dedicated Python script to calculate the studied movement parameters and visualize the results applicable to all 5-armed brittle stars was developed. These results can serve as the basis for further research in robotics inspired by brittle star locomotion.

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来源期刊
CiteScore
4.90
自引率
0.00%
发文量
29
审稿时长
>12 weeks
期刊介绍: Frontiers in Zoology is an open access, peer-reviewed online journal publishing high quality research articles and reviews on all aspects of animal life. As a biological discipline, zoology has one of the longest histories. Today it occasionally appears as though, due to the rapid expansion of life sciences, zoology has been replaced by more or less independent sub-disciplines amongst which exchange is often sparse. However, the recent advance of molecular methodology into "classical" fields of biology, and the development of theories that can explain phenomena on different levels of organisation, has led to a re-integration of zoological disciplines promoting a broader than usual approach to zoological questions. Zoology has re-emerged as an integrative discipline encompassing the most diverse aspects of animal life, from the level of the gene to the level of the ecosystem. Frontiers in Zoology is the first open access journal focusing on zoology as a whole. It aims to represent and re-unite the various disciplines that look at animal life from different perspectives and at providing the basis for a comprehensive understanding of zoological phenomena on all levels of analysis. Frontiers in Zoology provides a unique opportunity to publish high quality research and reviews on zoological issues that will be internationally accessible to any reader at no cost. The journal was initiated and is supported by the Deutsche Zoologische Gesellschaft, one of the largest national zoological societies with more than a century-long tradition in promoting high-level zoological research.
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