Safety constraints are ubiquitous in many robotic applications. For instance, aerial robots such as quadrotors or hexcoptors need to realize fast collision-free flight, and bipedal robots have to choose their discrete footholds properly to gain the desired friction and pressure contact forces. In this thesis, we address the safety critical control problem for fully-actuated and under-actuated mechanical systems. Since many mechanical systems evolve on nonlinear manifolds, we extend the concept of Control Barrier Function to a new concept called geometric Control Barrier Function which is specifically designed to handle safety constraints on manifolds. This type of Control Barrier Function stems from geometric control techniques and has a co...
International audienceWe address the safe-navigation problem for aerial robots in the presence of mo...
This paper presents a methodology for the development of control barrier functions (CBFs) through a ...
This paper presents the design of a geometric trajectory tracking controller for an underactuated mu...
<p>Safety constraints are ubiquitous in many robotic applications. For instance, aerial robots such ...
Safety-critical control is critical in the applications of unmanned aerial vehicles (UAVs). For inst...
A quadrotor is a type of Unmanned Aerial Vehicle that has received an increasing amount of attention...
A Quadrotor (QR) is a type of unmanned aerial vehicles which has been absorbed lots of attention rec...
Abstract — This paper is focused on tracking control for a rigid body payload, that is connected to ...
Abstract — This paper is focused on tracking control for a rigid body payload, that is connected to ...
Abstract—We address the problem of developing feedback controllers for a group of robots with second...
Autonomous aerial robots navigating in uncertain environments have a wide variety of applications, i...
We propose a novel nonlinear control method for solving the problem of stabilization with guaranteed...
Control barrier functions (CBFs) are one of the many used approaches for achieving safety in robot a...
Autonomous aerial robots navigating in uncertain environments have a wide variety of applications, i...
Over the decades, kinematic controllers have proven to be practically useful for applications like s...
International audienceWe address the safe-navigation problem for aerial robots in the presence of mo...
This paper presents a methodology for the development of control barrier functions (CBFs) through a ...
This paper presents the design of a geometric trajectory tracking controller for an underactuated mu...
<p>Safety constraints are ubiquitous in many robotic applications. For instance, aerial robots such ...
Safety-critical control is critical in the applications of unmanned aerial vehicles (UAVs). For inst...
A quadrotor is a type of Unmanned Aerial Vehicle that has received an increasing amount of attention...
A Quadrotor (QR) is a type of unmanned aerial vehicles which has been absorbed lots of attention rec...
Abstract — This paper is focused on tracking control for a rigid body payload, that is connected to ...
Abstract — This paper is focused on tracking control for a rigid body payload, that is connected to ...
Abstract—We address the problem of developing feedback controllers for a group of robots with second...
Autonomous aerial robots navigating in uncertain environments have a wide variety of applications, i...
We propose a novel nonlinear control method for solving the problem of stabilization with guaranteed...
Control barrier functions (CBFs) are one of the many used approaches for achieving safety in robot a...
Autonomous aerial robots navigating in uncertain environments have a wide variety of applications, i...
Over the decades, kinematic controllers have proven to be practically useful for applications like s...
International audienceWe address the safe-navigation problem for aerial robots in the presence of mo...
This paper presents a methodology for the development of control barrier functions (CBFs) through a ...
This paper presents the design of a geometric trajectory tracking controller for an underactuated mu...