AbstractThis work deals with the modelling and control of a riderless bicycle (see Figure 1). It is assumed here that the bicycle is controlled by a pedalling torque, a directional torque, and by a rotor mounted on the crossbar that generates a tilting torque.In particular, a kinematic model of the bicycle's motion is derived by using its dynamic model. Then, using this kinematic model, a constraint point-to-point control problem is dealt with
"In this paper, the instrumentation of a riderless bicycle prototype for control purposes is address...
The purpose of this paper is to study the dynamics of the accelerating bicycle under straight-runnin...
Rider control in bicycling is modeled by first adding the rider as a passive mechanism to the Whippl...
AbstractThis work deals with the modelling and control of a riderless bicycle (see Figure 1). It is ...
AbstractThis work deals with the modelling and control of a riderless bicycle rolling on a moving pl...
AbstractThis work deals with the stabilization and collision avoidance control of a riderless bicycl...
This contribution focuses on the dynamical modeling and control of a selfbalancing bicycle. The bicy...
This paper addresses the influence of a passive rider on the lateral dynamics of a Whipple-like bicy...
Abstract. In this paper, an experimental validation of some modelling aspects of an uncon-trolled bi...
In this paper we present a nonlinear benchmark bicycle dynamics with toroidal wheels. Using a symbol...
The work developed in this thesis explains the construction of both kinematic and dynamic models for...
International audienceThough the bicycle is a familiar object of everyday life, modelling its full n...
Abstract. The linearized equations of motion for a bicycle of the usual construction travelling stra...
This paper addresses the modeling and the control of an autonomous bicycle robot where the reference...
Bicycle designers traditionally develop bicycles based on experience and trial and error. Adopting m...
"In this paper, the instrumentation of a riderless bicycle prototype for control purposes is address...
The purpose of this paper is to study the dynamics of the accelerating bicycle under straight-runnin...
Rider control in bicycling is modeled by first adding the rider as a passive mechanism to the Whippl...
AbstractThis work deals with the modelling and control of a riderless bicycle (see Figure 1). It is ...
AbstractThis work deals with the modelling and control of a riderless bicycle rolling on a moving pl...
AbstractThis work deals with the stabilization and collision avoidance control of a riderless bicycl...
This contribution focuses on the dynamical modeling and control of a selfbalancing bicycle. The bicy...
This paper addresses the influence of a passive rider on the lateral dynamics of a Whipple-like bicy...
Abstract. In this paper, an experimental validation of some modelling aspects of an uncon-trolled bi...
In this paper we present a nonlinear benchmark bicycle dynamics with toroidal wheels. Using a symbol...
The work developed in this thesis explains the construction of both kinematic and dynamic models for...
International audienceThough the bicycle is a familiar object of everyday life, modelling its full n...
Abstract. The linearized equations of motion for a bicycle of the usual construction travelling stra...
This paper addresses the modeling and the control of an autonomous bicycle robot where the reference...
Bicycle designers traditionally develop bicycles based on experience and trial and error. Adopting m...
"In this paper, the instrumentation of a riderless bicycle prototype for control purposes is address...
The purpose of this paper is to study the dynamics of the accelerating bicycle under straight-runnin...
Rider control in bicycling is modeled by first adding the rider as a passive mechanism to the Whippl...