首页 /研究 /On the static structural design of climbing robots: part 1
LOCOMOTION

On the static structural design of climbing robots: part 1

Ausama Ahmed, Carlo Menon

发表年份
2015
引用次数
3
访问权限
开放获取

摘要

This manuscript is the first of two parts of a work investigating optimal configurations of legged climbing robots while loitering on vertical surfaces. In this part 1, a mathematical model of a climbing robot based on the finite element method (FEM), specifically the stiffness method, is generated. A number of parameters, namely the height of the robot, the length of its body and the position of its legs, are investigated to assess their effect on the adhesion requirements needed for the robot to stay attached to a wall. Predictions of the developed mathematical model are validated using FEM commercial software. The body and the legs are assumed to be perpendicular to each other in this part 1. The effect of their inclination is investigated in the subsequent part 2 of our work. In part 2, the model is also used to predict postures that ants have while standing on vertical surfaces. The model is validated by comparing the predicted results to images of loitering ants. The parameters investigated provide guidelines to design legged climbing robots.

关键词

ClimbingRobotFinite element methodStiffnessSoftwarePosition (finance)Work (physics)SimulationComputer sciencePerpendicular

相关论文

查看 LOCOMOTION 分类全部论文