A New Mobile Platform (RHyMo) for Smooth Movement on Rugged Terrain

This paper suggests a new performance metric for a mobile platform called as a posture variation index (PVI) to evaluate the smoothness of its movement, which is an important factor to predict undesired oscillations or shocks on a mobile platform while traveling on rugged terrain. The PVI consists o...

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Bibliographic Details
Published in:IEEE/ASME transactions on mechatronics 2016-06, Vol.21 (3), p.1303-1314
Main Authors: Choi, Dongkyu, Kim, Youngsoo, Jung, Seungmin, Kim, Jongwon, Kim, Hwa Soo
Format: Article
Language:English
Subjects:
Electric shock
Height variation
Indexes
Mobile communication
Mobile platform
Oscillators
Pitch angle variation
Posture variation index
Terrainability
Tracking
Wheels
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Summary:This paper suggests a new performance metric for a mobile platform called as a posture variation index (PVI) to evaluate the smoothness of its movement, which is an important factor to predict undesired oscillations or shocks on a mobile platform while traveling on rugged terrain. The PVI consists of the height and pitch angle variations of center of mass of a mobile platform. By using the PVI, the movements of well-known mobile platforms are systematically analyzed. In order to ensure smooth movement as well as high terrainability on rugged terrain, a new mobile platform (RHyMo) is constructed on the basis of the kinematic and quasi-static analyses. The extensive experiments are carried out by using the RHyMo and the Rocker-Bogie platform on the artificial rugged terrain, which verify that in comparison with the Rocker-Bogie platform, the average and maximum height variations of RHyMo are reduced by 12.72% and 5.96%, respectively. Moreover, the average and maximum pitch angle variations of RHyMo are significantly reduced by 65.87% and 60.53%, respectively. The terrainability of RHyMo against a high step and steep stairs is improved with the help of the track mechanism installed in the front linkage.
ISSN:1083-4435
1941-014X
DOI:10.1109/TMECH.2016.2520085