We consider the control of interacting subsystems whose dynamics and constraints are decoupled, but whose state vectors are coupled nonseparably in a single cost function of a finite horizon optimal control problem. For a given cost structure, we generate distributed optimal control problems for each subsystem and establish that a distributed receding horizon control implementation is stabilizing to a neighborhood of the objective state. The implementation requires synchronous updates and the exchange of the most recent optimal control trajectory between coupled subsystems prior to each update. The key requirements for stability are that each subsystem not deviate too far from the previous open-loop state trajectory, and that the receding h...
This paper addresses the distributed receding horizon control (DRHC) for multi-agent systems with ne...
In recent years, the finite-horizon quadratic minimization problem has become popular in process con...
This paper presents a distributed receding horizon coverage control algorithm to control a group of ...
Abstract: We consider the control of interacting subsystems whose dynamics and constraints are decou...
We consider the control of interacting subsystems whose dynamics and constraints are uncoupled, but...
We consider the control of interacting subsystems whose dynamics and constraints are decoupled, but ...
We consider the control of interacting subsystems whose dynamics and constraints are decoupled, but ...
Multiagent systems arise in several domains of engineering. Examples include arrays of mobile sensor...
Abstract: We propose a centralized optimal control problem and a receding horizon implementation for...
This paper considers the problem of distributed control of dynamically coupled nonlinear systems tha...
In this paper, a new distributed receding horizon formation control scheme is introduced using relat...
In this paper, we propose a framework for formation stabilization of multiple autonomous vehicles in...
In this paper, we propose a framework for formation stabilization of multiple autonomous vehicles i...
This paper presents a robust receding-horizon-control (RHC)-based scheme for a class of coordinated ...
We consider a distributed control problem comprising of multiple sub-systems with one-controller at ...
This paper addresses the distributed receding horizon control (DRHC) for multi-agent systems with ne...
In recent years, the finite-horizon quadratic minimization problem has become popular in process con...
This paper presents a distributed receding horizon coverage control algorithm to control a group of ...
Abstract: We consider the control of interacting subsystems whose dynamics and constraints are decou...
We consider the control of interacting subsystems whose dynamics and constraints are uncoupled, but...
We consider the control of interacting subsystems whose dynamics and constraints are decoupled, but ...
We consider the control of interacting subsystems whose dynamics and constraints are decoupled, but ...
Multiagent systems arise in several domains of engineering. Examples include arrays of mobile sensor...
Abstract: We propose a centralized optimal control problem and a receding horizon implementation for...
This paper considers the problem of distributed control of dynamically coupled nonlinear systems tha...
In this paper, a new distributed receding horizon formation control scheme is introduced using relat...
In this paper, we propose a framework for formation stabilization of multiple autonomous vehicles in...
In this paper, we propose a framework for formation stabilization of multiple autonomous vehicles i...
This paper presents a robust receding-horizon-control (RHC)-based scheme for a class of coordinated ...
We consider a distributed control problem comprising of multiple sub-systems with one-controller at ...
This paper addresses the distributed receding horizon control (DRHC) for multi-agent systems with ne...
In recent years, the finite-horizon quadratic minimization problem has become popular in process con...
This paper presents a distributed receding horizon coverage control algorithm to control a group of ...