Add to ORKGInternational audienceGiven the tethered aerial robot problem, in this paper we investigate a multi-agent extension considering a chain of two underactuated flying robots. Our goal is to independently control the elevations (angles) of the two links (or, equivalently, the Cartesian position of the last robot) and their internal stress. For this purpose we theoretically prove the dynamic feedback linearizability of the system and we exploit this property to design a nonlinear controller that exactly linearizes the system. The controller is able to steer the outputs of interest along any trajectory s.t. the desired elevations and stresses are functions of time of class C^3 and C^1 , respectively. The controller is able to track independently ...
International audienceThis paper considers the study of cooperative manipulation of a cable-suspende...
International audienceWe present the dynamic modeling, analysis, and control design of a Planar-Vert...
International audienceWe study the control problem of an aerial vehicle moving in the 3D space and c...
International audienceGiven the tethered aerial robot problem, in this paper we investigate a multi-...
Here we consider a multi-agent extension of the original problem analyzed in Chap. 4, by looking at ...
International audienceThis work deals with a comprehensive version of the tethered aerial vehicle pr...
Accepted for IEEE Transaction on RoboticsInternational audienceWe consider the problem of controllin...
International audienceIn this paper we address a challenging version of the problem of controlling t...
International audienceWe consider the problem of state-observation and control for a bi-tethered aer...
In this paper we present the dynamic Lagrangian modeling, system analysis, and nonlinear control of ...
In this work, a trajectory tracking controller structure for a systemcomposed of a load and an aeria...
This paper presents the design of a geometric trajectory tracking controller for an underactuated mu...
none3siThis work presents the design of a cooperative control policy for a group of heterogeneous ve...
International audienceThis paper considers the study of cooperative manipulation of a cable-suspende...
International audienceWe present the dynamic modeling, analysis, and control design of a Planar-Vert...
International audienceWe study the control problem of an aerial vehicle moving in the 3D space and c...
International audienceGiven the tethered aerial robot problem, in this paper we investigate a multi-...
Here we consider a multi-agent extension of the original problem analyzed in Chap. 4, by looking at ...
International audienceThis work deals with a comprehensive version of the tethered aerial vehicle pr...
Accepted for IEEE Transaction on RoboticsInternational audienceWe consider the problem of controllin...
International audienceIn this paper we address a challenging version of the problem of controlling t...
International audienceWe consider the problem of state-observation and control for a bi-tethered aer...
In this paper we present the dynamic Lagrangian modeling, system analysis, and nonlinear control of ...
In this work, a trajectory tracking controller structure for a systemcomposed of a load and an aeria...
This paper presents the design of a geometric trajectory tracking controller for an underactuated mu...
none3siThis work presents the design of a cooperative control policy for a group of heterogeneous ve...
International audienceThis paper considers the study of cooperative manipulation of a cable-suspende...
International audienceWe present the dynamic modeling, analysis, and control design of a Planar-Vert...
International audienceWe study the control problem of an aerial vehicle moving in the 3D space and c...