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Towards a unified understanding of basic notions and terms in humanoid robotics

Published online by Cambridge University Press:  29 August 2006

M. Vukobratović
Affiliation:
Institute Mihajlo Pupin, 11000-Belgrade, Volgina 15, Serbia E-mail: [email protected]
B. Borovac
Affiliation:
University of Novi Sad, Faculty of Technical Sciences, 21000-Novi Sad, Trg D. Obradovića 6, Serbia E-mail: [email protected]
V. Potkonjak
Affiliation:
University of Belgrade, faculty of Electrical Engineering, 11000-Belgrade, Bulevar kralja Aleksandra 73, Serbia E-mail: [email protected]

Abstract

The intention of this paper is to contribute towards a unified understanding of the basic notions and terms in the domain of humanoid robotics, having in mind that the same notions are sometimes interpreted in different ways (some interpretations are contradictory, and some even erroneous). Hence, the first part of the paper is devoted to defining some basic notions, walk and gait being among the first. Then, the paper deals with the notion of dynamic balance and stability, particularly the difference between them, since these essentially different notions are often confused and, rarely, regarded as identical. As dynamic balance is directly related to the notion of zero-moment point (ZMP), it was necessary to touch upon some misunderstandings concerning the ZMP. Gait stability is an especially delicate category, as humanoid locomotion systems have certain specific features that are not possessed by other systems. Namely, because of external disturbances, there may appear unpowered (passive) degrees of freedom that cause loss of dynamic balance. Hence, these unpowered degrees of freedom cannot be overlooked in the stability analysis. As the stability of motion of humanoid robots is inseparably linked with control, it was also necessary to pay due attention to this notion. Finally, the paper ends with a discussion of posture and postural stability with all their specificities. The authors hope that this paper will contribute to a clearer understanding of the basic notions of humanoid robotics, especially concerning robots with high dynamic and control performances.

Type
Article
Copyright
2006 Cambridge University Press

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