This paper considers the problem of reduction of self-localization errors in multi-agent autonomous formations when only distance measurements are available to the agents in a globally rigid formation. It is shown that there is a relationship between different selections of anchors, agents with exactly known positions, and the error induced by measurement error on localization solution. This fact is exploited to develop a mechanism to select anchors in order to minimize the effects of inter-agent distance measurement errors on localization solution. Finally, some simulation results are presented to demonstrate the optimal anchor selection for a particular general class of formations, the globally rigid formations
We investigate three intertwined problems concerned with distributed cooperative control of groups o...
This paper proposes algorithms to coordinate a formation of mobile agents when the agents are not ab...
We address the robustness issue for controlling, using only local information, the shapes of undirec...
This paper considers the problem of reduction of self-localization errors in multi-agent autonomous ...
The primary purpose of this thesis is to present new results in the field of localization, co-ordina...
Recent research on multi-agent systems has produced a plethora of decentralized controllers that imp...
In this paper, we consider the problem of cooperatively localizing a formation of networked mobile r...
Self-localization and formation control tasks are considered when each agent in a multiagent formati...
Self-localization and formation control tasks are considered when each agent in a multiagent formati...
This paper concentrates on multi-agent formation control problems under mixed measurements of distan...
Distributed formation control has received increasing attention in multiagent systems. Maintaining c...
In this paper we discuss quantization effects in rigid formation control systems when target formati...
In this paper we address the problem of estimating the poses of a team of agents when they do not sh...
This paper concentrates on multi-agent formation control problems under mixed measurements of distan...
This paper proposes a two stage approach to solving a simple network localization problem arising in...
We investigate three intertwined problems concerned with distributed cooperative control of groups o...
This paper proposes algorithms to coordinate a formation of mobile agents when the agents are not ab...
We address the robustness issue for controlling, using only local information, the shapes of undirec...
This paper considers the problem of reduction of self-localization errors in multi-agent autonomous ...
The primary purpose of this thesis is to present new results in the field of localization, co-ordina...
Recent research on multi-agent systems has produced a plethora of decentralized controllers that imp...
In this paper, we consider the problem of cooperatively localizing a formation of networked mobile r...
Self-localization and formation control tasks are considered when each agent in a multiagent formati...
Self-localization and formation control tasks are considered when each agent in a multiagent formati...
This paper concentrates on multi-agent formation control problems under mixed measurements of distan...
Distributed formation control has received increasing attention in multiagent systems. Maintaining c...
In this paper we discuss quantization effects in rigid formation control systems when target formati...
In this paper we address the problem of estimating the poses of a team of agents when they do not sh...
This paper concentrates on multi-agent formation control problems under mixed measurements of distan...
This paper proposes a two stage approach to solving a simple network localization problem arising in...
We investigate three intertwined problems concerned with distributed cooperative control of groups o...
This paper proposes algorithms to coordinate a formation of mobile agents when the agents are not ab...
We address the robustness issue for controlling, using only local information, the shapes of undirec...