This work presents a virtual rider for the control of nonlinear motorcycle models, where the target motion is defined in terms of road path and speed profiles. The virtual rider inputs are the steering torque, the rear wheel driving/braking torque and front wheel braking torque. The virtual rider capability is assessed by guiding a nonlinear motorcycle model in very demanding cornering maneuvers, with roll angle up to 50°, and strong accelerations which lead the vehicle to the stoppie/wheeling extreme conditions
Over the years, the design of modern vehicles is becoming an extremely complex task. This trend is ...
This thesis introduces a new and freely available Modelica library for the purpose of simulation, an...
Recently developed optimization and nonlinear control strategies are applied to ride a multi-body mo...
This work presents a virtual rider for the control of nonlinear motorcycle models, where the target ...
This work develops a virtual rider that can be used to make a multi-body two-wheeled vehicle follow ...
This work develops a virtual rider that can be used to make a multi-body two-wheeled vehicle follow ...
This chapter presents an effective means for exploring aggressive motorcycle trajectories. It discus...
Virtual prototyping tools are widely used in the development of new motorcycles, but the instability...
The target of this work is the development of a motorcycle virtual rider model that plans a trajecto...
Recently developed optimization and nonlinear control strategies are applied to drive a multi-body m...
The control of single-track vehicles represents a challenging task. The stability is characterized b...
Compared to the automotive industry, the use of simulators in the motorcycle domain is negligible as...
This paper introduces a new and freely available Mod-elica library for the purpose of simulation, an...
International audienceThis paper deals with a motorcycle riding simulator and addresses two key issu...
This project aims to develop a human-in-the-loop simulator for single-track, human-powered vehicles ...
Over the years, the design of modern vehicles is becoming an extremely complex task. This trend is ...
This thesis introduces a new and freely available Modelica library for the purpose of simulation, an...
Recently developed optimization and nonlinear control strategies are applied to ride a multi-body mo...
This work presents a virtual rider for the control of nonlinear motorcycle models, where the target ...
This work develops a virtual rider that can be used to make a multi-body two-wheeled vehicle follow ...
This work develops a virtual rider that can be used to make a multi-body two-wheeled vehicle follow ...
This chapter presents an effective means for exploring aggressive motorcycle trajectories. It discus...
Virtual prototyping tools are widely used in the development of new motorcycles, but the instability...
The target of this work is the development of a motorcycle virtual rider model that plans a trajecto...
Recently developed optimization and nonlinear control strategies are applied to drive a multi-body m...
The control of single-track vehicles represents a challenging task. The stability is characterized b...
Compared to the automotive industry, the use of simulators in the motorcycle domain is negligible as...
This paper introduces a new and freely available Mod-elica library for the purpose of simulation, an...
International audienceThis paper deals with a motorcycle riding simulator and addresses two key issu...
This project aims to develop a human-in-the-loop simulator for single-track, human-powered vehicles ...
Over the years, the design of modern vehicles is becoming an extremely complex task. This trend is ...
This thesis introduces a new and freely available Modelica library for the purpose of simulation, an...
Recently developed optimization and nonlinear control strategies are applied to ride a multi-body mo...