In this paper, we study the adaptive fuzzy formation control of multiple autonomous agents with prioritized missions. For a platoon of autonomous agents in an unknown environment containing multiple obstacles, formation control is investigated, where each agent is modeled by a second-order nonlinear system under unknown external disturbance in the Brunovsky form. We introduce the systematic procedure of null-space-based projection to convert the prioritized multimission control problem into a behavioral control problem. Then, we further develop a class of nonlinear-fast-terminal-sliding-mode-based adaptive control strategies that combine the fuzzy logic systems by jointly considering both kinematic and dynamic levels of the agents. The prop...
Hierarchical approaches and methodologies are commonly used for control system design and synthesis....
This work proposes a biologically inspired collective behaviour for a team of co-operating robots. C...
This paper focuses on the cooperative adaptive fuzzy control of multiple high-order nonlinear dynami...
In this paper, we study the adaptive fuzzy formation control of multiple autonomous agents with prio...
This paper investigates the formation control problem of multiple mobile agents with second-order no...
This paper investigates the formation control problem of multiple mobile agents with second-order no...
The paper proposes an optimized leader-follow er formation control for the multi-agent systems with ...
Balancing the conflicting demands imposed by a dynamic world on an autonomous robot requires a signi...
This paper deals with the problem of multi-robot border patrolling. The patrolling algorithm is desi...
Autonomous driving is a growing domain of intelligent transportation systems that utilizes communica...
Autonomous robots operating in unstructured environments clearly require some capacity for adaptive ...
In this paper, we investigate a novel distributed behavioral control scheme for second-order nonline...
In this paper, a time-varying leader-follower formation control of nonholonomic mobile robots based ...
This paper focuses on the development of intelligent multi-agent robot teams that are capable of act...
Hierarchical approaches and methodologies are commonly used for control system design and synthesis....
This work proposes a biologically inspired collective behaviour for a team of co-operating robots. C...
This paper focuses on the cooperative adaptive fuzzy control of multiple high-order nonlinear dynami...
In this paper, we study the adaptive fuzzy formation control of multiple autonomous agents with prio...
This paper investigates the formation control problem of multiple mobile agents with second-order no...
This paper investigates the formation control problem of multiple mobile agents with second-order no...
The paper proposes an optimized leader-follow er formation control for the multi-agent systems with ...
Balancing the conflicting demands imposed by a dynamic world on an autonomous robot requires a signi...
This paper deals with the problem of multi-robot border patrolling. The patrolling algorithm is desi...
Autonomous driving is a growing domain of intelligent transportation systems that utilizes communica...
Autonomous robots operating in unstructured environments clearly require some capacity for adaptive ...
In this paper, we investigate a novel distributed behavioral control scheme for second-order nonline...
In this paper, a time-varying leader-follower formation control of nonholonomic mobile robots based ...
This paper focuses on the development of intelligent multi-agent robot teams that are capable of act...
Hierarchical approaches and methodologies are commonly used for control system design and synthesis....
This work proposes a biologically inspired collective behaviour for a team of co-operating robots. C...
This paper focuses on the cooperative adaptive fuzzy control of multiple high-order nonlinear dynami...