Different Models of Rolling for a Robot Ball on a Plane as a Generalization of the Chaplygin Ball Problem


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This paper addresses the problem of the rolling of a spherical shell with a frame rotating inside, on which rotors are fastened. It is assumed that the center of mass of the entire system is at the geometric center of the shell.

For the rubber rolling model and the classical rolling model it is shown that, if the angular velocities of rotation of the frame and the rotors are constant, then there exists a noninertial coordinate system (attached to the frame) in which the equations of motion do not depend explicitly on time. The resulting equations of motion preserve an analog of the angular momentum vector and are similar in form to the equations for the Chaplygin ball. Thus, the problem reduces to investigating a two-dimensional Poincaré map.

The case of the rubber rolling model is analyzed in detail. Numerical investigation of its Poincaré map shows the existence of chaotic trajectories, including those associated with a strange attractor. In addition, an analysis is made of the case of motion from rest, in which the problem reduces to investigating the vector field on the sphere S2.

Sobre autores

Ivan Bizyaev

Moscow Institute of Physics and Technology; Center for Technologies in Robotics and Mechatronics Components

Autor responsável pela correspondência
Email: bizaev_90@mail.ru
Rússia, Institutskii per. 9, Dolgoprudnyi, 141700; ul. Universitetskaya 1, Innopolis, 420500

Alexey Borisov

Udmurt State University

Autor responsável pela correspondência
Email: borisov@rcd.ru
Rússia, ul. Universitetskaya 1, Izhevsk, 426034

Ivan Mamaev

Moscow Institute of Physics and Technology; Institute of Mathematics and Mechanics of the Ural Branch of RAS

Autor responsável pela correspondência
Email: mamaev@rcd.ru
Rússia, Institutskii per. 9, Dolgoprudnyi, 141700; ul. S. Kovalevskoi 16, Ekaterinburg, 620990

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