This paper investigates the dynamics of networks of systems achieving rendezvous under linear quadratic optimal control. While the dynamics of rendezvous were studied extensively for the symmetric case, where all systems have exactly the same dynamics (such as simple integrators), this paper investigates the rendezvous dynamics for the general case when the dynamics of the systems may be different. We show that the rendezvous is stable and that the post-rendezvous dynamics of the network of systems is entirely defined by the common eigenvalues with common eigenvectors output image. The approach is also extended to the case of constraints on systems states, inputs, and outputs
We examine the problem of designing optimal trajectories to establish connectivity in a network of i...
This thesis addresses the minimum-time rendezvous optimal control problem by implementing continuati...
The development of feedback control systems for autonomous orbital rendezvous is a key technological...
In this paper we present a dynamical systems framework for analyzing multi-agent rendezvous problems...
This paper handles with an energy optimal guidance law for rendezvous mission, based on linear quadr...
In this article is presented a dynamical systems framework for analysing multi-agent rendezvous prob...
In this paper, we consider a linear quadratic regulator control problem for spacecraft rendezvous in...
International audienceWe address the output and state consensus problems for multi-agent high-order ...
Abstract — A framework is presented for rendezvous in a network of n underactuated thrust-propelled ...
The problems related to the coordination of mobile robots have been widely studied in the past and, ...
The paper proposes an algorithm for solving the optimal open-loop terminal control problem of two sp...
In this technical note we consider the multi-agent rendezvous problem and we state new sufficient co...
Abstract. This paper presents the design and analysis result for asynchronous rendezvous control of ...
International audienceWe address the rendezvous control problem of a group of thrust-propelled Unman...
This paper presents the design and analysis result for asynchronous rendezvous control of multiagent...
We examine the problem of designing optimal trajectories to establish connectivity in a network of i...
This thesis addresses the minimum-time rendezvous optimal control problem by implementing continuati...
The development of feedback control systems for autonomous orbital rendezvous is a key technological...
In this paper we present a dynamical systems framework for analyzing multi-agent rendezvous problems...
This paper handles with an energy optimal guidance law for rendezvous mission, based on linear quadr...
In this article is presented a dynamical systems framework for analysing multi-agent rendezvous prob...
In this paper, we consider a linear quadratic regulator control problem for spacecraft rendezvous in...
International audienceWe address the output and state consensus problems for multi-agent high-order ...
Abstract — A framework is presented for rendezvous in a network of n underactuated thrust-propelled ...
The problems related to the coordination of mobile robots have been widely studied in the past and, ...
The paper proposes an algorithm for solving the optimal open-loop terminal control problem of two sp...
In this technical note we consider the multi-agent rendezvous problem and we state new sufficient co...
Abstract. This paper presents the design and analysis result for asynchronous rendezvous control of ...
International audienceWe address the rendezvous control problem of a group of thrust-propelled Unman...
This paper presents the design and analysis result for asynchronous rendezvous control of multiagent...
We examine the problem of designing optimal trajectories to establish connectivity in a network of i...
This thesis addresses the minimum-time rendezvous optimal control problem by implementing continuati...
The development of feedback control systems for autonomous orbital rendezvous is a key technological...