Design and development of a legged robot (I)

Design and development of a legged robot (I)

This final year project aims to design and develop an autonomous legged robot to compete in TechFest 2009 in India. An autonomous legged robot is built from the ground up with S$1,000 budget in 20 weeks. It must satisfy the size constrain (750x750x750mm), weight constraint (10kg), and rules of the c...

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Main Author: Tri Wira Efendi.
Other Authors: Heng Kok Hui, John Gerard
Format: Final Year Project
Language:English
Published: 2009
Subjects:
DRNTU::Engineering::Mechanical engineering::Robots
Online Access:http://hdl.handle.net/10356/16228
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-162282023-03-04T18:18:46Z Design and development of a legged robot (I) Tri Wira Efendi. Heng Kok Hui, John Gerard School of Mechanical and Aerospace Engineering Robotics Research Centre DRNTU::Engineering::Mechanical engineering::Robots This final year project aims to design and develop an autonomous legged robot to compete in TechFest 2009 in India. An autonomous legged robot is built from the ground up with S$1,000 budget in 20 weeks. It must satisfy the size constrain (750x750x750mm), weight constraint (10kg), and rules of the competition. The task that needs to be performed by the legged robot is to walk through a U-shape track with some obstacles autonomously. The obstacles consist of 3cm step, 5cm step, 6cm step, 7 cm pipe obstacle, and two 90 degrees turn. The aim of the legged robot is to reach the finish line in shortest time period. The design uses the existing 6 legged robot in Mechatronics and Control Lab. The study of this existing design was performed to analyze the conformity with the TechFest rules. Some modifications were added into the existing design so that the robot will be able to perform in TechFest arena. The leg spacing was increased to allow wider leg swing and battery compartments and circuit platform were added into the basic design. The legged robot has 3 servo motors on each leg. With these 3 motors, the robot leg can be more flexible, hence it enhances the ability to clear the obstacles in the arena. The robot will be able to walk straight, rotate, and lift its body to clear the obstacle. In order to let the robot performs autonomously, sensors and microcontrollers are installed into the robot. Eight Basic Stamps 2SX and 6 QTI sensors are used in the robot, 1 BS to control the sensor, 1 BS for each leg, and 1 BS as the main brain to control the whole system. The 6 QTI sensors are utilized to provide line detection to allow the robot to be aware of its position in the arena. After 20 weeks, the legged robot was completed. Up to the point of this report, the robot has been able to perform a simple walking motion. However, due to some unforeseen problems, the walking motion of the robot was not smooth enough. With further development, the robot is expected to be able to perform well in the TechFest competition. Bachelor of Engineering (Mechanical Engineering) 2009-05-22T07:27:10Z 2009-05-22T07:27:10Z 2009 2009 Final Year Project (FYP) http://hdl.handle.net/10356/16228 en Nanyang Technological University 79 p. application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic DRNTU::Engineering::Mechanical engineering::Robots
spellingShingle DRNTU::Engineering::Mechanical engineering::Robots
Tri Wira Efendi.
Design and development of a legged robot (I)
description This final year project aims to design and develop an autonomous legged robot to compete in TechFest 2009 in India. An autonomous legged robot is built from the ground up with S$1,000 budget in 20 weeks. It must satisfy the size constrain (750x750x750mm), weight constraint (10kg), and rules of the competition. The task that needs to be performed by the legged robot is to walk through a U-shape track with some obstacles autonomously. The obstacles consist of 3cm step, 5cm step, 6cm step, 7 cm pipe obstacle, and two 90 degrees turn. The aim of the legged robot is to reach the finish line in shortest time period. The design uses the existing 6 legged robot in Mechatronics and Control Lab. The study of this existing design was performed to analyze the conformity with the TechFest rules. Some modifications were added into the existing design so that the robot will be able to perform in TechFest arena. The leg spacing was increased to allow wider leg swing and battery compartments and circuit platform were added into the basic design. The legged robot has 3 servo motors on each leg. With these 3 motors, the robot leg can be more flexible, hence it enhances the ability to clear the obstacles in the arena. The robot will be able to walk straight, rotate, and lift its body to clear the obstacle. In order to let the robot performs autonomously, sensors and microcontrollers are installed into the robot. Eight Basic Stamps 2SX and 6 QTI sensors are used in the robot, 1 BS to control the sensor, 1 BS for each leg, and 1 BS as the main brain to control the whole system. The 6 QTI sensors are utilized to provide line detection to allow the robot to be aware of its position in the arena. After 20 weeks, the legged robot was completed. Up to the point of this report, the robot has been able to perform a simple walking motion. However, due to some unforeseen problems, the walking motion of the robot was not smooth enough. With further development, the robot is expected to be able to perform well in the TechFest competition.
author2 Heng Kok Hui, John Gerard
author_facet Heng Kok Hui, John Gerard
Tri Wira Efendi.
format Final Year Project
author Tri Wira Efendi.
author_sort Tri Wira Efendi.
title Design and development of a legged robot (I)
title_short Design and development of a legged robot (I)
title_full Design and development of a legged robot (I)
title_fullStr Design and development of a legged robot (I)
title_full_unstemmed Design and development of a legged robot (I)
title_sort design and development of a legged robot (i)
publishDate 2009
url http://hdl.handle.net/10356/16228
_version_ 1759856278898737152

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