ROLLMOBS, a new drive system for omnimobile robots

L.  Ferrière; G.  Campion; B.  Raucent

doi:10.1017/S0263574700002873

Abstract

Typical mobile robot structures (e.g. wheelchairs or car-like robots) do not have the required mobility for common applications such as displacement in an office, hospital, workshop, etc. New structures based on the “universal wheel” (i.e. a wheel equipped with freely rotating rollers) have been developed to increase mobility. However, these structures have important drawbacks such as spurious vibrations and limited load capacity. This paper presents a new type of omnimobile platform using an original combination of spherical wheel and universal wheel. This structure will improve the robot capabilities, i.e., load capacity and surmountable bumps.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Dehez, B. Grenier, D. and Raucent, B. 2002. Two-degree-of-freedom spherical actuator for Omnimobile ROBOT. Vol. 3, Issue. , p. 2381.

Dehez, Bruno Froidmont, Vincent Grenier, Damien and Raucent, Benoît 2005. Design, modeling and first experimentation of a two-degree-of-freedom spherical actuator. Robotics and Computer-Integrated Manufacturing, Vol. 21, Issue. 3, p. 197.

Dehez, B. Galary, G. Grenier, D. and Raucent, B. 2006. Development of a spherical induction motor with two degrees of freedom. IEEE Transactions on Magnetics, Vol. 42, Issue. 8, p. 2077.

Li, Jianghao Li, Zhenbo and Chen, Jiapin 2007. An omni-directional mobile millimeter-sized microrobot with 3-mm electromagnetic micromotors for a micro-factory . Advanced Robotics, Vol. 21, Issue. 12, p. 1369.

Lee, Danny V. and Velinsky, Steven A. 2007. Analysis and Experimental Verification of a Three-Dimensional Noncontacting Angular Motion Sensor. IEEE/ASME Transactions on Mechatronics, Vol. 12, Issue. 6, p. 612.

Hillman, Michael R Gibbs, Christopher C and Evans, Nina M 2007. Omni-directional wheelchair in reality and virtuality. p. 371.

Li, Jianghao Li, Zhenbo and Chen, Jiapin 2008. Wheels Optimization and Vision Control of Omni-directional Mobile Microrobot. International Journal of Advanced Robotic Systems, Vol. 5, Issue. 2, p. 19.

Campion, Guy and Chung, Woojin 2008. Springer Handbook of Robotics. p. 391.

Chung, Woojin Moon, Chang-bae Jung, Changbae and Jin, Jiyong 2010. Design of the Dual Offset Active Caster Wheel for Holonomic Omni-Directional Mobile Robots. International Journal of Advanced Robotic Systems, Vol. 7, Issue. 4, p. 26.

Tu, Kuo-Yang 2010. A linear optimal tracker designed for omnidirectional vehicle dynamics linearized based on kinematic equations. Robotica, Vol. 28, Issue. 7, p. 1033.

Kumagai, Masaaki 2010. Development of a ball drive unit using partially sliding rollers — An alternative mechanism for semi-omnidirectional motion —. p. 3352.

Ghariblu, Hashem and Mohammadi, Hadi 2012. Structure and dynamic modelling of a spherical robot. p. 1.

Borisov, Alexey V. Kilin, Alexander A. and Mamaev, Ivan S. 2015. Dynamics and control of an omniwheel vehicle. Regular and Chaotic Dynamics, Vol. 20, Issue. 2, p. 153.

Chung, Woojin and Iagnemma, Karl 2016. Springer Handbook of Robotics. p. 575.

Wang, Futao Li, Chaobing Niu, Shaohua Wang, Pengfei Wu, Huaisong and Li, Bingyang 2022. Design and Analysis of a Spherical Robot with Rolling and Jumping Modes for Deep Space Exploration. Machines, Vol. 10, Issue. 2, p. 126.

Article contents

ROLLMOBS, a new drive system for omnimobile robots

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

ROLLMOBS, a new drive system for omnimobile robots

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests