A Multi Objective Function and Optimal Design of BAM Using MATLAB

Roopsandeep Bammidi, N. Teja, S. Babu, P. S. R. Reddy, N. Akhil, O. Prakashini
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Abstract

From past decades, the different types of mechanisms in mobile robots have been created so far which includes legged, treaded-tyre and wheeled type robots. Among these types, the wheeled type is easiest to control while the treaded-tyre type offers improved flexibility. Legged locomotion, though not widely used for industrial purposes, has growing implications mainly due to its ease of maneuvering in rough terrains. The Walking motion is obtained through various mechanisms. Most obvious of these is the crank and rocker mechanism, which gives a walking style characteristic of human being. The present research work uses a different type of mechanism for driving a biped that is most distinguished by its ease of operation that produces a type of ‘walk’ similar to that of two legged mammals. In this research initially, a multi-objective optimization is carried out for the optimal design of the mechanism. This research involves a simulation of a simple Biped model using Crank-Rocker mechanism. The design of the biped robot is done by considering two important objective parameters stride and lift, a multi objective function must be created and optimization is done by using MATLAB Programming.
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基于MATLAB的BAM多目标函数及优化设计
从过去的几十年里,移动机器人的不同类型的机构已经被创造出来,包括腿式、胎式和轮式机器人。在这些类型中,轮式最容易控制,而胎面轮胎类型提供了更好的灵活性。腿式运动,虽然没有广泛用于工业目的,越来越多的影响主要是由于其易于操作在崎岖的地形。行走运动是通过各种机构来实现的。其中最明显的是曲柄摇杆机构,它赋予了人的行走方式特征。目前的研究工作使用了一种不同的机制来驱动两足动物,这种机制最显著的特点是易于操作,可以产生一种类似于两条腿的哺乳动物的“行走”方式。本研究首先对机构进行了多目标优化设计。本研究采用曲柄摇杆机构对一个简单的两足动物模型进行仿真。双足机器人的设计主要考虑步幅和升力两个重要的目标参数,需要建立多目标函数并利用MATLAB编程进行优化。
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