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Development of Hexapod Robot with Manoeuvrable Wheel

The necessity to utilize the usage of the robot cannot be denied since there are a lot of natural disasters occur everywhere around the world. The robot that can be used in this situation may be a remotely controlled by human or moves autonomously. Hexapod robot is one of the robots used in this sit...

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Bibliographic Details
Main Authors: Mohd Zamzuri, Ab Rashid, Mohd Shahrieel, Mohd Aras, A. A., Radzak, Anuar, Mohamed Kassim,, Annisa, Jamali
Format: Article
Language:English
Published: Science & Engineering Research Support soCiety 2012
Subjects:
TJ Mechanical engineering and machinery
Online Access:http://ir.unimas.my/id/eprint/23457/1/Development%20of%20hexapod%20robot%20with%20manoeuvrable%20wheel%20%28abs%29.pdf
http://ir.unimas.my/id/eprint/23457/
https://www.researchgate.net/publication/267752436_Development_of_Hexapod_Robot_with_Manoeuvrable_Wheel
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Summary:The necessity to utilize the usage of the robot cannot be denied since there are a lot of natural disasters occur everywhere around the world. The robot that can be used in this situation may be a remotely controlled by human or moves autonomously. Hexapod robot is one of the robots used in this situation because of its stability and flexibility during the motion on any type of surface. Hexapod robot is a robot that has six legs to walk or move. Since the robot has many legs, the robot is easily programmed to move around because it can be configured to many types of gait such as alternating tripod, quadruped and crawl. There are various designs of hexapod with certain function and advantages. In this research, a hexapod robot with manoeuvrable wheel is designed and developed. The purpose of the hexapod robot with manoeuvrable wheel is to ease the movement either on the flat surface or on the inclined surface. On the flat surface, the robot will move using the manoeuvrable wheel while on incline surface, the robot will climb using its legs. The decisions for the robot to use either wheel or legs are based on the sensory devices and algorithm develops at the controller attached to the robot.

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