This paper presents a general approach to the kinematics of an orientation motion platform utilizing a sphere actuated by omnidirectional wheels. The number and type of the omnidirectional wheels, as well as their position and orientation relative to the sphere are arbitrary, provided they are distinct. In this paper, the general kinematics are presented and illustrated by sample configurations with a range of omnidirectional wheel types and quantities. Moreover, no-slip conditions are identified, and the resulting expressions and their implications on the design of such a mechanical system are demonstrated by means of several benchmark examples
In this paper, a six-degree-of-freedom (DOF) motion platform based on spherical wheels is presented ...
In the coordinate systems defined in Fig. 2, XOY is an inertialthe vehicle must carry heavy loads. P...
Abstract — For mobile platforms with steerable standard wheels it is necessary to precisely coordina...
This paper presents analysis of the dynamics and vibration of an orientation motion platform utilizi...
The Atlas platform represents a novel six degree-of-freedom motion platform architecture. Orienting ...
A multi-degree of freedom (DOF) motion platform has been developed for various applications such as ...
This paper presents the development of a six degree-of-freedom (DOF) motion platform based on omni-s...
A novel omnidirectional wheeled mechanism, named as MY wheel, is developed based on the sliced ball ...
Using a novel actuation concept employing omni-directional wheels (or simply omni-wheels), the Atlas...
Abstract-This paper presents the concepts for a new family of holonomic wheeled platforms that featu...
This paper presents a continuous isotropic spherical omnidirectional drive mechanism that is efficie...
Using a novel actuation concept employing omni-directional wheels (or simply omni-wheels), the Atlas...
A novel omnidirectional wheeled mobile robot, mainly composed of three special wheeled structures-MY...
International audienceThis article addresses the omni directional mechanical architectures problemat...
This paper describes a test stand for determining the kinematic excitation originating from the cont...
In this paper, a six-degree-of-freedom (DOF) motion platform based on spherical wheels is presented ...
In the coordinate systems defined in Fig. 2, XOY is an inertialthe vehicle must carry heavy loads. P...
Abstract — For mobile platforms with steerable standard wheels it is necessary to precisely coordina...
This paper presents analysis of the dynamics and vibration of an orientation motion platform utilizi...
The Atlas platform represents a novel six degree-of-freedom motion platform architecture. Orienting ...
A multi-degree of freedom (DOF) motion platform has been developed for various applications such as ...
This paper presents the development of a six degree-of-freedom (DOF) motion platform based on omni-s...
A novel omnidirectional wheeled mechanism, named as MY wheel, is developed based on the sliced ball ...
Using a novel actuation concept employing omni-directional wheels (or simply omni-wheels), the Atlas...
Abstract-This paper presents the concepts for a new family of holonomic wheeled platforms that featu...
This paper presents a continuous isotropic spherical omnidirectional drive mechanism that is efficie...
Using a novel actuation concept employing omni-directional wheels (or simply omni-wheels), the Atlas...
A novel omnidirectional wheeled mobile robot, mainly composed of three special wheeled structures-MY...
International audienceThis article addresses the omni directional mechanical architectures problemat...
This paper describes a test stand for determining the kinematic excitation originating from the cont...
In this paper, a six-degree-of-freedom (DOF) motion platform based on spherical wheels is presented ...
In the coordinate systems defined in Fig. 2, XOY is an inertialthe vehicle must carry heavy loads. P...
Abstract — For mobile platforms with steerable standard wheels it is necessary to precisely coordina...