Add to ORKGThe report describes the development of a theoretical framework for coordination and control of combined teams of UAVs and UGVs for coordinated ISR missions. We consider the mission as a composition of an ordered sequence of subtasks, each to be performed by a different team. We design continuous cooperative controllers that enable each team to perform a given subtask and we develop a discrete strategy for interleaving the action of teams on different subtasks. The overall multi-agent coordination architecture is captured by a hybrid automaton, stability is studied using Lyapunov tools, and performance is evaluated through numerical simulations
Unmanned Aircraft Systems (UAS) are being used for a variety of single vehicle missions such as surv...
The purpose of this demo is twofold. On the one hand, we present a novel problem that has much poten...
Effective military use of UVs (Unmanned Vehicles) will depend on coordination of large teams. Autom...
The report describes the development of a theoretical framework for coordination and control of com...
The report describes the development of a theoretical framework for coordination and control of comb...
In this paper we examine human tasks in controlling UAV teams by considering their computational com...
The study of swarm intelligence has provided researchers with powerful tools to apply biological ins...
Multi-UAV missions are complex systems that may include a fleet of UAVs, a crew of operators and dif...
A unified theoretical approach to multi-agent formation control of UAVs was presented. Intelligent p...
Collaboration between autonomous robots allows for complex mission to be executed more eciently.A co...
Collaboration between autonomous robots allows for complex mission to be executed more eciently.A co...
Collaboration between autonomous robots allows for complex mission to be executed more eciently.A co...
Over the last few years, cooperative autonomous systems have become a more popular solution for acco...
The study of unmanned aerial systems (UAS) has been an active research topic in recent years due to ...
In this paper, a theoretical control framework for distributed cooperative decision making for an en...
Unmanned Aircraft Systems (UAS) are being used for a variety of single vehicle missions such as surv...
The purpose of this demo is twofold. On the one hand, we present a novel problem that has much poten...
Effective military use of UVs (Unmanned Vehicles) will depend on coordination of large teams. Autom...
The report describes the development of a theoretical framework for coordination and control of com...
The report describes the development of a theoretical framework for coordination and control of comb...
In this paper we examine human tasks in controlling UAV teams by considering their computational com...
The study of swarm intelligence has provided researchers with powerful tools to apply biological ins...
Multi-UAV missions are complex systems that may include a fleet of UAVs, a crew of operators and dif...
A unified theoretical approach to multi-agent formation control of UAVs was presented. Intelligent p...
Collaboration between autonomous robots allows for complex mission to be executed more eciently.A co...
Collaboration between autonomous robots allows for complex mission to be executed more eciently.A co...
Collaboration between autonomous robots allows for complex mission to be executed more eciently.A co...
Over the last few years, cooperative autonomous systems have become a more popular solution for acco...
The study of unmanned aerial systems (UAS) has been an active research topic in recent years due to ...
In this paper, a theoretical control framework for distributed cooperative decision making for an en...
Unmanned Aircraft Systems (UAS) are being used for a variety of single vehicle missions such as surv...
The purpose of this demo is twofold. On the one hand, we present a novel problem that has much poten...
Effective military use of UVs (Unmanned Vehicles) will depend on coordination of large teams. Autom...