Add to ORKGAbstract: This paper investigates adaptive flocking of multi-agent systems (MASs) with a virtual leader. All agents and the virtual leader share the same intrinsic nonlinear dynamics, which satisfies a locally Lipschitz condition and depends on both position and velocity information of the agent itself. Under the assumption that the initial network is connected, an approach to preserving the connectivity of the network is proposed. Based on the Lyapunov stability theory, an adaptive flocking control law is derived to make the MASs track the virtual leader without collision. Finally, a numerical example is presented to illustrate the effectiveness of the theoretical results
This paper considers the collective dynamics of a group of mobile autonomous agents moving in Euclid...
This is the second of a two-part paper, investigating the stability properties of a system of multip...
This paper considers a group of mobile autonomous agents moving in the space with point mass dynamic...
In this paper, we investigate the problem of flocking with multiple virtual leader based on connecti...
This paper considers the flocking problem of a group of autonomous agents moving in the space with a...
This paper considers the flocking problem of a group of autonomous agents moving in Euclidean space ...
Without assuming that the communication topology can maintain its connectivity frequently enough dur...
In this paper, a distributed event-triggered control strategy is proposed to investigate a flocking ...
In this paper, the problem of flocking control in networks of multiple dynamical agents with intermi...
Without assuming that the communication topology can remain its connectivity frequently enough and t...
Without assuming that the communication topology can maintain its connectivity frequently enough dur...
Abstract—All agents being informed and the virtual leader trav-eling at a constant velocity are the ...
In this paper, we revisit the artificial potential based approach in the flocking control for multi-...
This paper considers a group of mobile autonomous agents moving in the space with point mass dynamic...
Using tools from algebraic graph theory and nonsmooth analysis in combination with ideas of collecti...
This paper considers the collective dynamics of a group of mobile autonomous agents moving in Euclid...
This is the second of a two-part paper, investigating the stability properties of a system of multip...
This paper considers a group of mobile autonomous agents moving in the space with point mass dynamic...
In this paper, we investigate the problem of flocking with multiple virtual leader based on connecti...
This paper considers the flocking problem of a group of autonomous agents moving in the space with a...
This paper considers the flocking problem of a group of autonomous agents moving in Euclidean space ...
Without assuming that the communication topology can maintain its connectivity frequently enough dur...
In this paper, a distributed event-triggered control strategy is proposed to investigate a flocking ...
In this paper, the problem of flocking control in networks of multiple dynamical agents with intermi...
Without assuming that the communication topology can remain its connectivity frequently enough and t...
Without assuming that the communication topology can maintain its connectivity frequently enough dur...
Abstract—All agents being informed and the virtual leader trav-eling at a constant velocity are the ...
In this paper, we revisit the artificial potential based approach in the flocking control for multi-...
This paper considers a group of mobile autonomous agents moving in the space with point mass dynamic...
Using tools from algebraic graph theory and nonsmooth analysis in combination with ideas of collecti...
This paper considers the collective dynamics of a group of mobile autonomous agents moving in Euclid...
This is the second of a two-part paper, investigating the stability properties of a system of multip...
This paper considers a group of mobile autonomous agents moving in the space with point mass dynamic...