ROBOT OPERATING SYSTEM (ROS) DAN GAZEBO SEBAGAI MEDIA PEMBELAJARAN ROBOT INTERAKTIF

Abdul Jalil

Abstract


A robot is a prototype that is able to control by automatically to help the human work. Some of the parts to build a robot system are making the mechanical system, hardware, and software. The limitation of cost to make the robot hardware and programming skills are an obstacle to learn and develop the robot system. The development of the robot community nowadays makes the Robot Operating System (ROS) and Gazebo as an interactive media to learn and make the robot simulation. ROS is a middleware that equipped with tools and libraries to create a robot software, while Gazebo is a 3D simulation application to build a robot hardware design. On this paper, the researcher makes a robot simulation to avoid the object using Lidar sensor and camera, the simulation has developed using ROS and Gazebo that be able to use as a media for robot learning interactive.


Keywords


Robot Operating System (ROS); Gazebo; Robot

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References


A. Jalil, “Rancang Bangun Robot Humanoid,” Proceeding, Konferensi Nasional Ilmu Komputer (KONIK APTIKOM), ISSN : 2338-2899, 2016.

Taufiq Dwi Septian Suyadhi, “Buku Pintar ROBOTIKA. Bagaimana Merancang dan Membuat Robot Sendiri,” Yogyakarta: Penerbit Andi, 2010.

Hoedi Prasetyo,Wahyudi Sutopo, “INDUSTRI 4.0: TELAAH KLASIFIKASI ASPEK DAN ARAH PERKEMBANGAN RISET,” Jurnal Teknik Industri, Vol. 13, No. 1, Januari 2018.

Aaron Martinez and Enrique Fernandez, “Learning ROS for Robotics Programming,“ Published by Packt Publishing Ltd. Livery Place, Birmingham B3 2PB, UK. ISBN 978-1-78216-144-8, 2013.

Enrique Fernandez, Luiz Sanchez Crespo, Anil Mahtani and Aaron Martinez,, “Learning ROS for Robotics Programming second edition,” Published by Packt Publishing Ltd. Livery Place, Birmingham B3 2PB, UK. ISBN 978-1-78398-758-0, 2015.

http://www.ros.org/. [online], diakses pukul 20.05, tanggal 11 Oktober 2018.

J. M. O’Kane, “A Gentle Introduction to ROS,” Independently published, available at http://www.cse.sc.edu/_jokane/agitr/, 2013.

Andreas Bihlmaier, Heinz W¨orn, “Increasing ROS Reliability and Safety through Advanced Introspection Capabilities,” Institute for Anthropomatics and Robotics (IAR), Intelligent Process Control and Robotics Lab (IPR), Karlsruhe Institute of Technology (KIT).

http://www.ros.org/history/. [online], diakses pukul 15.20, tanggal 13 Oktober 2018.

http://design.ros2.org/. [online], diakses pukul 16.40, tanggal 14 Oktober 2018.

http://design.ros2.org/articles/changes.html. [online], diakses pukul 14.15, Tanggal 16 Oktober 2018.

http://wiki.ros.org/Distributions. [online], diakses pukul 15.20, tanggal 17 Oktober 2018.

http://wiki.ros.org/ROS/Concepts. [online], diakses pukul 10.40, tanggal 19 Oktober 2018.

http://www.ros.org/wp-content/uploads/2013/10/rosorg-logo1.png. [online], diakses pukul 14.53, tanggal 21 Oktober 2018.

Morgan Quigley, Brian Gerkey, Ken Conley, Josh Faust, Tully Footey, Jeremy Leibs, Eric Berger, Rob Wheeler, Andrew Ng, “ROS: an open-source Robot Operating System,” Computer Science Department, Stanford University, Stanford, CA. Willow Garage, Menlo Park, CA. Computer Science Department, University of Southern California.

Johannes Meyer, Alexander Sendobry, Stefan Kohlbrecher, Uwe Klingauf1 dan Oskar von Stryk, “Comprehensive Simulation of Quadrotor UAVs using ROS and Gazebo,“ Department of Mechanical Engineering, TU Darmstadt, Germany. Department of Computer Science, TU Darmstadt, Germany.

Erkan Uslu, Furkan Cakmak, Nihal Altuntas, Salih Marangoz, Mehmet Fatih Amasyali and Sirma Yavuz, “An Architecture for Multi-Robot Localization and Mapping in the Gazebo/Robot Operating System Simulation Environment,” Simulation: Transactions of the Society for Modeling and Simulation International. p 1-10, DOI: 10.1177/0037549717710098, 2017.

Thomas Linner, Alaguraj Shrikathiresan, Maxim Vetrenko, Bernhard Ellmann dan Thomas Bock, “Modeling and Operating Robotic Environments Using Gazebo/Ros,” Chair for Building Realization and Robotics, Technische Universität München, Germany dan Building Technology and Construction Management, IIT Madras, India.

Kenta Takaya, Toshinori Asai, Valeri Kroumov, dan Florentin Smarandache, “Simulation Environment for Mobile Robots Testing Using Ros and Gazebo,” 20th International Conference on System Theory, Control and Computing (ICSTCC), October 13-15, Sinaia, Romania, 2016.

Weijia Yao, Wei Dai, Junhao Xiao, Huimin Lu, Zhiqiang Zheng, “A Simulation System Based on ROS and Gazebo for RoboCup Middle Size League,” Proceedings of the 2015 IEEE Conference on Robotics and Biomimetics Zhuhai, China, December 6-9, 2015.

Maxim Sokolov, Roman Lavrenov, Aidar Gabdullin, Ilya Afanasyev dan Evgeni Magid, “3d Modelling and Simulation of a Crawler Robot in Ros/Gazebo,” MATEC Web of Conferences, Conference Paper December 2016. DOI: 10.1145/3029610.3029641, 2016.

Gustavo A. Casa˜n, Enric Cervera, Amine A. Moughlbay, Jaime Alemany dan Philippe Martinet, “ROS-based Online Robot Programming for Remote Education and Training, “ 2015 IEEE International Conference on Robotics and Automation (ICRA) Washington State Convention Center Seattle, Washington, May 26-30, 2015.

Wei Qian, Zeyang Xia, Jing Xiong, Yangzhou Gan, Yangchao Guo, Shaokui Weng, Hao Deng, Ying Hu, Jianwei Zhang, “Manipulation Task Simulation using ROS and Gazebo,” Proceedings of the 2014 IEEE International Conference on Robotics and Biomimetics, Bali, Indonesia, December 5-10, 2014.

Parisa Masnadi Khiabani, Babak Sistanizadeh Aghdam, Javad Ramezanzadeh and Hamid D. Taghirad, “Visual Servoing Simulator by Using ROS and Gazebo,” Proceedings of the 4th International Conference on Robotics and Mechatronics, Tehran, Iran, October 26-28, 2016.

Enrico Mingo Hoffman, Silvio Traversaro, Alessio Rocchi, Mirko Ferrati, Alessandro Settimi, Francesco Romano, Lorenzo Natale, Antonio Bicchi, Francesco Nori, Nikos G. Tsagarakis, “Yarp Based Plugins for Gazebo Simulator,” J. Hodicky (Ed.): MESAS 2014, LNCS 8906, pp. 333–346, 2014.

http://gazebosim.org/. [online], diakses pukul 19.40, tanggal 25 Oktober 2018.




DOI: http://dx.doi.org/10.33096/ilkom.v10i3.365.284-289

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