This paper studies some extensions to the decentralized attitude synchronization of identical rigid bodies. Considering fully actuated Euler equations, the communication links between the rigid bodies are limited and the available information is restricted to relative orientations and angular velocities. In particular, no leader nor external reference dictates the swarm's behavior. The control laws are derived using two classical approaches of nonlinear control - tracking and energy shaping. This leads to a comparison of two corresponding methods which are currently considered for distributed synchronization - consensus and stabilization of mechanical systems with symmetries. © 2007 IEEE
AbstractIn this paper we consider distributed attitude synchronization problem for multiple rigid bo...
In this paper we extend our previous results on coordinated control of rotating rigid bodies to the ...
We address stable synchronization of a network of rotating and translating rigid bodies in three-dim...
peer reviewedThis paper studies some extensions to the decentralized attitude synchronization of ide...
Abstract — In this paper, distributed attitude synchronization problems are considered for multiple ...
This paper studies the application of nonlinear cooperative control theory to the attitude synchroni...
This paper studies the application of nonlinear cooperative control theory to the attitude synchroni...
The present paper considers the problem of autonomous synchronization of attitudes in a swarm of spa...
In the present paper we consider the problem of attitude synchronization for a system of rigid body ...
The attitude synchronizing of formation flying spacecrafts is an essential ingredient in almost all ...
AbstractThis paper addresses coordinated attitude control problem for multiple rigid bodies. Based o...
This dissertation explores aspects of control in rigid-body and robotic systems. The first and secon...
This paper addresses attitude synchronization problems for systems of multiple rigid-body agents wit...
We consider the problem of attitude synchronization for systems of rigid body agents with directed t...
peer reviewedThe present paper considers the problem of autonomous synchronization of attitudes in a...
AbstractIn this paper we consider distributed attitude synchronization problem for multiple rigid bo...
In this paper we extend our previous results on coordinated control of rotating rigid bodies to the ...
We address stable synchronization of a network of rotating and translating rigid bodies in three-dim...
peer reviewedThis paper studies some extensions to the decentralized attitude synchronization of ide...
Abstract — In this paper, distributed attitude synchronization problems are considered for multiple ...
This paper studies the application of nonlinear cooperative control theory to the attitude synchroni...
This paper studies the application of nonlinear cooperative control theory to the attitude synchroni...
The present paper considers the problem of autonomous synchronization of attitudes in a swarm of spa...
In the present paper we consider the problem of attitude synchronization for a system of rigid body ...
The attitude synchronizing of formation flying spacecrafts is an essential ingredient in almost all ...
AbstractThis paper addresses coordinated attitude control problem for multiple rigid bodies. Based o...
This dissertation explores aspects of control in rigid-body and robotic systems. The first and secon...
This paper addresses attitude synchronization problems for systems of multiple rigid-body agents wit...
We consider the problem of attitude synchronization for systems of rigid body agents with directed t...
peer reviewedThe present paper considers the problem of autonomous synchronization of attitudes in a...
AbstractIn this paper we consider distributed attitude synchronization problem for multiple rigid bo...
In this paper we extend our previous results on coordinated control of rotating rigid bodies to the ...
We address stable synchronization of a network of rotating and translating rigid bodies in three-dim...