In this paper we derive the equations of motion and analyze some aspects of the dynamics of planar chains. We show that (a) for any integer vector n=(n1,...,nN) (where N is the number of joints) there exists a periodic motion such that the angle of jth joint changes by 2[pi]nj during one period; (b) the straight configuration is (nonlinearly) stable and that any "folded" rectilinear configuration is unstable; (c) the Coriolis effects play no role in stability of these rectilinear configurations, in contrast to other problems such as the stabilizing effect on the spinning top.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/30315/1/0000717.pd
AbstractThis paper addresses both modeling and dynamics identification of planar multi-lever linkage...
Abstract: The zero dynamics of a hybrid model of bipedal walking are introduced and studied for a cl...
Abstract. Multibody systems in planar motion are modelled as two or more rigid components that are c...
ABSTRACT. A planar system of rigid bodies interconnected by one degree of freedom rotational joints ...
AbstractThe object of this paper is two-fold. On the one hand we want to develop the duality theory ...
In this paper we pay attention to the classical one-dimensional planar spin system and, in particula...
This paper studies the dynamics of coupled planar rigid bodies, concentrating on the case of two or ...
In this paper, we investigate the kinematics and dynamics of floating, planar four-bar linkages. The...
[[abstract]]We study the mechanical property of a two-dimensional free rotating chain (FRC). We find...
This paper explores essence of geometric constraints induced reconfiguration of single-loop kinemati...
Based on our previous work in this paper we study the vibrations of a planar chain with rotational ...
This paper studies the dynamics of coupled planar rigid bodies, concentrating on the case of two bod...
PhDWe consider a one-parameter family of invertible maps of a twodimensional lattice, obtained by ap...
This paper develops and applies the energy-momentum method to the problem of nonlinear stability of ...
We consider the non-canonical Hamiltonian dynamics of a gyrostat in the three body problem. By means...
AbstractThis paper addresses both modeling and dynamics identification of planar multi-lever linkage...
Abstract: The zero dynamics of a hybrid model of bipedal walking are introduced and studied for a cl...
Abstract. Multibody systems in planar motion are modelled as two or more rigid components that are c...
ABSTRACT. A planar system of rigid bodies interconnected by one degree of freedom rotational joints ...
AbstractThe object of this paper is two-fold. On the one hand we want to develop the duality theory ...
In this paper we pay attention to the classical one-dimensional planar spin system and, in particula...
This paper studies the dynamics of coupled planar rigid bodies, concentrating on the case of two or ...
In this paper, we investigate the kinematics and dynamics of floating, planar four-bar linkages. The...
[[abstract]]We study the mechanical property of a two-dimensional free rotating chain (FRC). We find...
This paper explores essence of geometric constraints induced reconfiguration of single-loop kinemati...
Based on our previous work in this paper we study the vibrations of a planar chain with rotational ...
This paper studies the dynamics of coupled planar rigid bodies, concentrating on the case of two bod...
PhDWe consider a one-parameter family of invertible maps of a twodimensional lattice, obtained by ap...
This paper develops and applies the energy-momentum method to the problem of nonlinear stability of ...
We consider the non-canonical Hamiltonian dynamics of a gyrostat in the three body problem. By means...
AbstractThis paper addresses both modeling and dynamics identification of planar multi-lever linkage...
Abstract: The zero dynamics of a hybrid model of bipedal walking are introduced and studied for a cl...
Abstract. Multibody systems in planar motion are modelled as two or more rigid components that are c...