Abstract—Single-track vehicles, such as motorcycles, provide an agile mobile platform. Modeling and control of motorcycles for agile maneuvers, such as those by professional racing riders, are challenging due to motorcycle’s unstable platform and complex tire/road interaction. As a first step attempting to understand how racing riders drive a motorcycle, in this two-part paper we present a modeling and tracking control design of an autonomous motorcycle. In this first-part paper, we discuss a new dynamics model for the autonomous motorcycle. We consider the existence of lateral sliding velocity at each wheel contact point. Because of the importance of the tire/road inter-action for vehicle stability and maneuverability, the dynamic modeling...
In the autonomous driving the main challenge is vehicle stabilization with electronic control system...
This paper investigates the effects of a traction control system on the motorcycle’s dynamics when b...
This paper proposes to enhance the first R.S. Sharp’s motorcycle mathematical model, in order to ta...
The paper presents a motorcycle dynamics model developed for testing and future model based controll...
Abstract — In this paper, we present trajectory tracking and balancing of autonomous motorcycles for...
Modern motorcycles are evolving more and more towards complex systems by the increasing integration ...
Single-track vehicles, such as motorcycles and bicycles, not only provide an everyday transportation...
The work developed in this thesis explains the construction of both kinematic and dynamic models for...
Abstract — In this paper, we present a trajectory tracking control algorithm for an autonomous motor...
Over the years, the trend of innovation and development of all-wheel drive (AWD) solutions for moto...
Recent technology advances in the field of ride-by-wire technology for motorcycle (namely active brak...
Abstract. Starting from an existing advanced motorcycle dynamics model, which allows simulation of r...
This paper presents a simulation model for the dynamic behavior of a motorcycle developed in Modelic...
This chapter provides a basic insight into the two-wheeled vehicle dynamics to be applied to vehicle...
In the autonomous driving the main challenge is vehicle stabilization with electronic control system...
This paper investigates the effects of a traction control system on the motorcycle’s dynamics when b...
This paper proposes to enhance the first R.S. Sharp’s motorcycle mathematical model, in order to ta...
The paper presents a motorcycle dynamics model developed for testing and future model based controll...
Abstract — In this paper, we present trajectory tracking and balancing of autonomous motorcycles for...
Modern motorcycles are evolving more and more towards complex systems by the increasing integration ...
Single-track vehicles, such as motorcycles and bicycles, not only provide an everyday transportation...
The work developed in this thesis explains the construction of both kinematic and dynamic models for...
Abstract — In this paper, we present a trajectory tracking control algorithm for an autonomous motor...
Over the years, the trend of innovation and development of all-wheel drive (AWD) solutions for moto...
Recent technology advances in the field of ride-by-wire technology for motorcycle (namely active brak...
Abstract. Starting from an existing advanced motorcycle dynamics model, which allows simulation of r...
This paper presents a simulation model for the dynamic behavior of a motorcycle developed in Modelic...
This chapter provides a basic insight into the two-wheeled vehicle dynamics to be applied to vehicle...
In the autonomous driving the main challenge is vehicle stabilization with electronic control system...
This paper investigates the effects of a traction control system on the motorcycle’s dynamics when b...
This paper proposes to enhance the first R.S. Sharp’s motorcycle mathematical model, in order to ta...