DESIGN AND IMPLEMENTATION OF QUADRUPED ROBOT DOMBABOT USING ROS AND GAZEBO WITH CAN BUS COMMUNICATION, POWER AND MOVEMENT SYSTEM
Robot development is generally costly. However, robot modeling can help robot developers to verify the robot model through simulation. This will minimize the risk of failing in physical implementation. In this paper, the four-legged robot Dombabot is implemented using the URDF model and simulated...
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| Main Author: | |
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/50958 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Robot development is generally costly. However, robot modeling can help robot
developers to verify the robot model through simulation. This will minimize the risk
of failing in physical implementation. In this paper, the four-legged robot
Dombabot is implemented using the URDF model and simulated through the
Gazebo and run using ROS and its components. In addition, this paper also explains
the attachable-module communication component, CAN Bus. The method used in
this scientific paper is a descriptive method using the results of the tests that have
been carried out. The results of the implementation of the model in Gazebo and
ROS shows that the 3D model in the form of .dae provided by the partner company
Dombabot can be implemented optimally and has met the design specification of
each limb of the robot. In addition, the results of the CAN Bus implementation have
met the specifications required in robot development. Also, the implementation of
power and drive systems has been met the predetermined specifications. Therefore,
further Dombabot development has to be carried out using URDF design in which
each robot frame approaches the optimal Dombabot design. This will need a more
consice and detailed 3D model with its moment, inertia, and mass definition which
important for next robot development.
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