Path generation of sit to stand motion using humanoid robot
The study of sit to stand motion (STS) gives high impact to the robotics field particularly in rehabilitation, exoskeleton, as well as humanoid robotics. Research in the STS field will promote the advancement of common humanoid motion hence make a robot more humanlike. With the capability of STS mot...
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2014
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| Online Access: | http://eprints.utem.edu.my/id/eprint/19258/2/2.3.10%20Path%20Generation%20of%20Sit%20to%20Stand%20Motion%20using%20Humanoid%20Robot.pdf http://eprints.utem.edu.my/id/eprint/19258/ http://ajbasweb.com/old/ajbas/2014/February/168-182.pdf |
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my.utem.eprints.192582023-07-18T09:55:41Z http://eprints.utem.edu.my/id/eprint/19258/ Path generation of sit to stand motion using humanoid robot Miskon, Muhammad Fahmi Bahar, Mohd Bazli Abu Bakar, Norazhar Shukor, Ahmad Zaki Ali @ Ibrahim, Fariz The study of sit to stand motion (STS) gives high impact to the robotics field particularly in rehabilitation, exoskeleton, as well as humanoid robotics. Research in the STS field will promote the advancement of common humanoid motion hence make a robot more humanlike. With the capability of STS motion, the robot can be set at sitting position as a default home position and can be used for the purpose of long period application such as security and domestic robot. The main challenge in STS is in addressing the lift-off from chair. In solving the problem, two components involved in the humanoid STS motion system; (1) phase and trajectory planning and (2) motion control. These components should be designed so that the zero moment point (ZMP), centre of pressure (CoP), and centre of mass (CoM) must be in the support polygon. Objective: This paper presents the development of Sit to Stand (STS) motion path generation method that can autonomously generate a stable STS path when standing from multiple chair height. The proposed system is designed to have two main phases. (1) CoM transferring that implements Alexander STS technique and (2) Stabilization Strategy that used IF-THEN rules as action selection and proportional controller as tracking method Results: in the CoM transferring phase, NAO robot is able to shift the head-arms-torso system (HAT) CoM into the support polygon for chair height in between 90.45% to 115.45% from the shank length with the CoM transferring period, AENSI Publisher 2014 Article PeerReviewed text en http://eprints.utem.edu.my/id/eprint/19258/2/2.3.10%20Path%20Generation%20of%20Sit%20to%20Stand%20Motion%20using%20Humanoid%20Robot.pdf Miskon, Muhammad Fahmi and Bahar, Mohd Bazli and Abu Bakar, Norazhar and Shukor, Ahmad Zaki and Ali @ Ibrahim, Fariz (2014) Path generation of sit to stand motion using humanoid robot. Australian Journal of Basic and Applied Sciences, 8 (2). pp. 168-182. ISSN 1991-8178 http://ajbasweb.com/old/ajbas/2014/February/168-182.pdf |
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The study of sit to stand motion (STS) gives high impact to the robotics field particularly in rehabilitation, exoskeleton, as well as humanoid robotics. Research in the STS field will promote the advancement of common humanoid motion hence make a robot more humanlike. With the capability of STS motion, the robot can be set at sitting position as a default home position and can be used for the purpose of long period application such as security and domestic robot. The main challenge in STS is in addressing the lift-off from chair. In solving the problem, two components involved in the humanoid STS motion system; (1) phase and trajectory planning and (2) motion control. These components should be designed so that the zero moment point (ZMP), centre of pressure (CoP), and centre of mass (CoM) must be in the support polygon.
Objective: This paper presents the development of Sit to Stand (STS) motion path generation method that can autonomously generate a stable STS path when standing from multiple chair height. The proposed system is designed to have two main phases.
(1) CoM transferring that implements Alexander STS technique and (2) Stabilization Strategy that used IF-THEN rules as action selection and proportional controller as
tracking method Results: in the CoM transferring phase, NAO robot is able to shift the head-arms-torso system (HAT) CoM into the support polygon for chair height in between 90.45% to 115.45% from the shank length with the CoM transferring period, |
| format |
Article |
| author |
Miskon, Muhammad Fahmi Bahar, Mohd Bazli Abu Bakar, Norazhar Shukor, Ahmad Zaki Ali @ Ibrahim, Fariz |
| spellingShingle |
Miskon, Muhammad Fahmi Bahar, Mohd Bazli Abu Bakar, Norazhar Shukor, Ahmad Zaki Ali @ Ibrahim, Fariz Path generation of sit to stand motion using humanoid robot |
| author_facet |
Miskon, Muhammad Fahmi Bahar, Mohd Bazli Abu Bakar, Norazhar Shukor, Ahmad Zaki Ali @ Ibrahim, Fariz |
| author_sort |
Miskon, Muhammad Fahmi |
| title |
Path generation of sit to stand motion using humanoid robot |
| title_short |
Path generation of sit to stand motion using humanoid robot |
| title_full |
Path generation of sit to stand motion using humanoid robot |
| title_fullStr |
Path generation of sit to stand motion using humanoid robot |
| title_full_unstemmed |
Path generation of sit to stand motion using humanoid robot |
| title_sort |
path generation of sit to stand motion using humanoid robot |
| publisher |
AENSI Publisher |
| publishDate |
2014 |
| url |
http://eprints.utem.edu.my/id/eprint/19258/2/2.3.10%20Path%20Generation%20of%20Sit%20to%20Stand%20Motion%20using%20Humanoid%20Robot.pdf http://eprints.utem.edu.my/id/eprint/19258/ http://ajbasweb.com/old/ajbas/2014/February/168-182.pdf |
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1772816007015956480 |
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13.160551 |