DESIGN AND CONSTRUCTION OF A NEW GENERATION OF ROBOTS

Autores

  • Azam Salari Bajegani Department of electrical engineering (control), Faculty of engineering, the University of Qom, Qom, Iran
  • Zahra Moeidi Department of electrical engineering (power system), Faculty of engineering, the Islamic Azad University of Kashan, Isfahan, Iran

DOI:

https://doi.org/10.22478/ufpb.2179-7137.2019v8n2.46516

Palavras-chave:

spherical robot, automated control, non-holonomic system, pendulum, SMC

Resumo

Each robot that is part of the physical environment, should be able to interact with humans. The dynamic balance on the robots such as the spherical robot cause demonstration Various interactive behaviors. Spherical robot is a stable and dynamic moving robot. It only features a spherical wheel that enables it to move in all directions, so there is not a problem to overturn the standing robots because its motion is in the form of rolling. The robot is able to easily move between the glades, sand and snow without clinging and can be used to build special operations teams in war zones or even carry explosives to the enemy's base. This research, is about the kinematics of the optimal motion of a spherical robot in a direct path with a simple mechanism and check spherical robot's control by the computer, and how wireless communication is communicated through the module. This robot is more capable than other robots made with different movement mechanisms, so that it can be easily moved and smooth in smooth, fluid, slippery, and angular surfaces, without the need for an attachment to move, It just moves easily with the gravity of the earth. The propulsion mechanism of this robot is a pendulum of two degrees of freedom propelled by two engines. This robot is a non-holonomic and non-linear system, so it needs a nonlinear controller like Sliding Mode Control (SMC).

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Referências

Journal of aerospace mechanics (Dynamics, vibration and control), Vol 7, no.1, 1390

construction, planning and setting up of spherical robot, Alireza Ajdari Faramani.

Yaxin Li, shuxiang Guo, Yu Wang, Design and characteristics evaluation of a novel spherical underwater robot, robotics and Autonomous systems, volume 94, August 2017

Maoxun Li, shuxiang Guo, Hideyuki HirataT Hidenori Ishihara, Design and performance evaluation of an amphibious spherical robot, robotics and Autonomous Systems, volume 64, Februay 2015

Wei-His chen, Ching-pei chen, Jia-shiuan Tsai, Jackie Yang, Pei Chun lin, Design and implementation of a ball-driven omnidirectional spherical robot, IFAC-PapersOnLine, Volume 49,Issue 18,2016

S. Bhattacharya ; S.K. Agrawal , Design, experiments and motion planning of a spherical rolling robot, Proceedings 2000 ICRA. Millennium Conference. IEEE International Conference on Robotics and Automation. Symposia Proceedings (Cat. No.00CH37065) , Volume: 2 ,Year: 2000

Chia-Wen Wu ; Zhong-Wei Qiu ; Yen-Hsiang Wang ; Po-Hsiang Hsu ; Chi-Kuang Hwang ,Modeling of a spherical robot driven by Omni wheels , 2011 International Conference on Machine Learning and Cybernetics ,Volume: 3 ,Year: 2011

Murniwati Anwar ; Lukman Hakim Omar ; Yusof Mohd Ekhsan ; Ruwaida Ramli ; Nurzulaikhah Nadzri ; Fazil Ahmad ; Muhammad Hazman Shafii, Conceptual of spherical robot , 2014 11th International Conference on Ubiquitous Robots and Ambient Intelligence (URAI) ,Year: 2014

Kang Hou ; Hanxu Sun ; Qingxuan Jia ; Yanheng Zhang , The Design of the Spherical Robot Autonomous GPS-Based Positioning and Navigation System , 2010 International Conference on Intelligent System Design and Engineering Application ,Volume:2 , Year: 2010

Zhe Wang ; Shuxiang Guo ; Liwei Shi ; Shaowu Pan ; Yanlin He , The application of PID control in motion control of the spherical amphibious robot , 2014 IEEE International Conference on Mechatronics and Automation , Year: 2014

Joshi, Vrunda A., and Ravi N. Banavar. "Motion analysis of a spherical mobile robot." Robotica 27.03 (2009): 343-353.

Joshi, Vrunda A., Ravi N. Banavar, and Rohit Hippalgaonkar. "Design and analysis of a spherical mobile robot." Mechanism and Machine Theory 45.2 (2010): 130-136.

Kamaldar, M., et al. "A control synthesis for reducing lateral oscillations of a spherical robot." Mechatronics (ICM), 2011 IEEE International Conference on. IEEE, 2011.

Roozegar, M., M. J. Mahjoob, and M. Jahromi. "DP-based path planning of a spherical mobile robot in an environment with obstacles." Journal of the Franklin Institute 351.10 (2014): 4923-4938.

Roozegar, M., M. J. Mahjoob, and A. Shafiekhani. "Using Dynamic Programming for Path Planning of a Spherical Mobile Robot."

Marigo, Alessia, and Antonio Bicchi. "A local-local planning algorithm for rolling objects." Robotics and Automation, 2002. Proceedings. ICRA'02.

Publicado

2019-07-03

Como Citar

BAJEGANI, A. S.; MOEIDI, Z. DESIGN AND CONSTRUCTION OF A NEW GENERATION OF ROBOTS. Gênero & Direito, [S. l.], v. 8, n. 2, 2019. DOI: 10.22478/ufpb.2179-7137.2019v8n2.46516. Disponível em: https://periodicos.ufpb.br/index.php/ged/article/view/46516. Acesso em: 8 nov. 2024.

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