Design and Synthesis of Multi-Segmented Robot to Mimic Serpentine Motion.

2020 IEEE International Students' Conference on Electrical,Electronics and Computer Science (SCEECS) Pub Date : 2020-02-01 DOI:10.1109/SCEECS48394.2020.69

Nikhil V. Taiwade, Shashwat M. Majumdar, Neema Ukani, S. Chakole

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Abstract

The type of locomotion achieved by reptilian organisms such as snakes is a truly fascinating phenomenon. Replicating the serpentine movement is a difficult task, but once such it is replicated to some degree, it could be used to make robots which have a large scope of application in many different fields. Replication of this type of motion makes it easier to access constricted areas in search and rescue operations carried out by response teams during, say, natural disasters. Also, if such movement can be replicated in an appropriately sized robot, it can be used in surveillance applications too. Serpentine motion, when properly replicated, can also open up new avenues for robots that are used to navigated clustered terrain. This paper represents a progress report on the research about different ways of achieving serpentine motion in robots using electromechanical and mechanical components. The robot shown in this paper was synthesized, and it was able to achieve serpentine and sidewinding motions.

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仿蛇形运动多节段机器人的设计与合成。

爬行类生物如蛇的这种运动方式确实是一种令人着迷的现象。复制蛇形运动是一项困难的任务，但一旦这种运动在某种程度上被复制，就可以用来制造在许多不同领域有广泛应用范围的机器人。这种类型的运动的复制使得响应小组在进行搜索和救援行动时更容易进入狭窄的区域，比如在自然灾害期间。此外，如果这种运动可以在一个适当大小的机器人中复制，它也可以用于监视应用。当适当复制蛇形运动时，也可以为用于导航集群地形的机器人开辟新的途径。本文介绍了利用机电和机械元件实现机器人蛇形运动的不同方法的研究进展。本文所展示的机器人是合成的，它能够实现蛇形和侧绕运动。

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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来源期刊

2020 IEEE International Students' Conference on Electrical,Electronics and Computer Science (SCEECS)

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