Center of Mass-Based Admittance Control for Multi-Legged Robot Walking on the Bottom of Ocean

This paper presents a proposed adaptive admittance control that is derived based on Center of Mass (CoM) of the hexapod robot designed for walking on the bottom of water or seabed. The study has been carried out by modeling the buoyancy force following the restoration force to achieve the drowning l...

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Main Authors: Addie Irawan, Hashim, Alam, Md. Moktadir, Yee, Yin Tan, Mohd Rizal, Arshad
Format: Article
Language:English
English
Published: Penerbit Universiti Teknologi Malaysia 2015
Subjects:
Online Access:http://umpir.ump.edu.my/id/eprint/10041/1/Center%20Of%20Mass-Based%20Admittance%20Control%20For%20Multi-Legged%20Robot%20Walking%20On%20The%20Bottom%20Of%20Ocean.pdf
http://umpir.ump.edu.my/id/eprint/10041/7/fkee-2015-addie-Center%20Of%20Mass-Based%20Admittance%20Control.pdf
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author Addie Irawan, Hashim
Alam, Md. Moktadir
Yee, Yin Tan
Mohd Rizal, Arshad
author_facet Addie Irawan, Hashim
Alam, Md. Moktadir
Yee, Yin Tan
Mohd Rizal, Arshad
author_sort Addie Irawan, Hashim
collection UMP
description This paper presents a proposed adaptive admittance control that is derived based on Center of Mass (CoM) of the hexapod robot designed for walking on the bottom of water or seabed. The study has been carried out by modeling the buoyancy force following the restoration force to achieve the drowning level according to the Archimedes’ principle. The restoration force needs to be positive in order to ensure robot locomotion is not affected by buoyancy factor. As a solution to regulate this force, admittance control has been derived based on the total force of foot placement to determine CoM of the robot while walking. This admittance control is designed according to a model of a real-time based 4-degree of freedom (DoF) leg configuration of a hexapod robot that able to perform hexapod-to-quadruped transformation. The analysis focuses on the robot walking in both configuration modes; hexapod and quadruped; with both tripod and traverse-trot walking pattern respectively. The verification is done on the vertical foot motion of the leg and the body mass coordination movement for each walking simulation. The results show that the proposed admittance control is able to regulate the force restoration factor by making vertical force on each foot sufficiently large (sufficient foot placement) compared to the buoyancy force of the ocean, thus performing stable locomotion for both hexapod and quadruped mode.
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spelling UMPir100412020-09-07T08:40:38Z http://umpir.ump.edu.my/id/eprint/10041/ Center of Mass-Based Admittance Control for Multi-Legged Robot Walking on the Bottom of Ocean Addie Irawan, Hashim Alam, Md. Moktadir Yee, Yin Tan Mohd Rizal, Arshad TK Electrical engineering. Electronics Nuclear engineering This paper presents a proposed adaptive admittance control that is derived based on Center of Mass (CoM) of the hexapod robot designed for walking on the bottom of water or seabed. The study has been carried out by modeling the buoyancy force following the restoration force to achieve the drowning level according to the Archimedes’ principle. The restoration force needs to be positive in order to ensure robot locomotion is not affected by buoyancy factor. As a solution to regulate this force, admittance control has been derived based on the total force of foot placement to determine CoM of the robot while walking. This admittance control is designed according to a model of a real-time based 4-degree of freedom (DoF) leg configuration of a hexapod robot that able to perform hexapod-to-quadruped transformation. The analysis focuses on the robot walking in both configuration modes; hexapod and quadruped; with both tripod and traverse-trot walking pattern respectively. The verification is done on the vertical foot motion of the leg and the body mass coordination movement for each walking simulation. The results show that the proposed admittance control is able to regulate the force restoration factor by making vertical force on each foot sufficiently large (sufficient foot placement) compared to the buoyancy force of the ocean, thus performing stable locomotion for both hexapod and quadruped mode. Penerbit Universiti Teknologi Malaysia 2015 Article PeerReviewed application/pdf en http://umpir.ump.edu.my/id/eprint/10041/1/Center%20Of%20Mass-Based%20Admittance%20Control%20For%20Multi-Legged%20Robot%20Walking%20On%20The%20Bottom%20Of%20Ocean.pdf application/pdf en http://umpir.ump.edu.my/id/eprint/10041/7/fkee-2015-addie-Center%20Of%20Mass-Based%20Admittance%20Control.pdf Addie Irawan, Hashim and Alam, Md. Moktadir and Yee, Yin Tan and Mohd Rizal, Arshad (2015) Center of Mass-Based Admittance Control for Multi-Legged Robot Walking on the Bottom of Ocean. Jurnal Teknologi (Sciences and Engineering), 74 (9). pp. 1-7. ISSN 0127-9696 (print); 2180-3722 (online). (Published) http://www.jurnalteknologi.utm.my/index.php/jurnalteknologi/article/view/4802
spellingShingle TK Electrical engineering. Electronics Nuclear engineering
Addie Irawan, Hashim
Alam, Md. Moktadir
Yee, Yin Tan
Mohd Rizal, Arshad
Center of Mass-Based Admittance Control for Multi-Legged Robot Walking on the Bottom of Ocean
title Center of Mass-Based Admittance Control for Multi-Legged Robot Walking on the Bottom of Ocean
title_full Center of Mass-Based Admittance Control for Multi-Legged Robot Walking on the Bottom of Ocean
title_fullStr Center of Mass-Based Admittance Control for Multi-Legged Robot Walking on the Bottom of Ocean
title_full_unstemmed Center of Mass-Based Admittance Control for Multi-Legged Robot Walking on the Bottom of Ocean
title_short Center of Mass-Based Admittance Control for Multi-Legged Robot Walking on the Bottom of Ocean
title_sort center of mass based admittance control for multi legged robot walking on the bottom of ocean
topic TK Electrical engineering. Electronics Nuclear engineering
url http://umpir.ump.edu.my/id/eprint/10041/1/Center%20Of%20Mass-Based%20Admittance%20Control%20For%20Multi-Legged%20Robot%20Walking%20On%20The%20Bottom%20Of%20Ocean.pdf
http://umpir.ump.edu.my/id/eprint/10041/7/fkee-2015-addie-Center%20Of%20Mass-Based%20Admittance%20Control.pdf
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