abstract: Bicycles and motorcycles offer maneuverability, energy efficiency and acceleration that four wheeled vehicles cannot offer given similar budget for. Two wheeled vehicles have drastically different dynamics from four wheeled vehicles due to their instability and gyroscopic effect from their wheels. This thesis focuses on self-stabilization of a motorcycle using an active control momentum gyroscope (CMG) and validation of this multi-degree-of-freedom system’s mathematical model. Physical platform was created to mimic the simulation as accurately as possible and all components used were justified. This process involves derivation of a 3 Degree-of-Freedom (DOF) system’s forward kinematics and its Jacobian matrix, simulation analysi...
This contribution focuses on the dynamical modeling and control of a selfbalancing bicycle. The bicy...
Motorcycles exhibit two potentially dangerous oscillatory modes known as wobble and weave. The forme...
In this project a remote controlled self-balancing mobile robot was designed, built and controlled. ...
In the autonomous driving the main challenge is vehicle stabilization with electronic control system...
Bicycles and motorcycles constitute one of the most popular means of transportation in the world. Wh...
Abstract — In this paper, we present a trajectory tracking control algorithm for an autonomous motor...
The work developed in this thesis explains the construction of both kinematic and dynamic models for...
In this paper, we have studied the various models, techniques and principles of Self-balancing of tw...
The observed dynamic behaviour of motorcycles suggests that interesting and significant motions occu...
The development of electronic safety systems for two-wheeled vehicles has started with considerable ...
The purpose of this study is to develop a self-balancing controller (SBC) for one-wheeled vehicles (...
In four-wheeled vehicles, electronic stability control (ESC) was introduced in the recent past to im...
The use of computer simulations in motorcycle engineering makes it possible both to reduce designing...
The paper presents a preliminary study on the use of the reaction wheel for improving the roll stabi...
International audienceThis paper presents the development of motorcycle dynamics model. The consider...
This contribution focuses on the dynamical modeling and control of a selfbalancing bicycle. The bicy...
Motorcycles exhibit two potentially dangerous oscillatory modes known as wobble and weave. The forme...
In this project a remote controlled self-balancing mobile robot was designed, built and controlled. ...
In the autonomous driving the main challenge is vehicle stabilization with electronic control system...
Bicycles and motorcycles constitute one of the most popular means of transportation in the world. Wh...
Abstract — In this paper, we present a trajectory tracking control algorithm for an autonomous motor...
The work developed in this thesis explains the construction of both kinematic and dynamic models for...
In this paper, we have studied the various models, techniques and principles of Self-balancing of tw...
The observed dynamic behaviour of motorcycles suggests that interesting and significant motions occu...
The development of electronic safety systems for two-wheeled vehicles has started with considerable ...
The purpose of this study is to develop a self-balancing controller (SBC) for one-wheeled vehicles (...
In four-wheeled vehicles, electronic stability control (ESC) was introduced in the recent past to im...
The use of computer simulations in motorcycle engineering makes it possible both to reduce designing...
The paper presents a preliminary study on the use of the reaction wheel for improving the roll stabi...
International audienceThis paper presents the development of motorcycle dynamics model. The consider...
This contribution focuses on the dynamical modeling and control of a selfbalancing bicycle. The bicy...
Motorcycles exhibit two potentially dangerous oscillatory modes known as wobble and weave. The forme...
In this project a remote controlled self-balancing mobile robot was designed, built and controlled. ...