In this paper we address the problem of estimating the poses of a team of agents when they do not share any common reference frame. Each agent is capable of measuring the relative position and orientation of its neighboring agents, however these measurements are not exact but they are corrupted with noises. The goal is to compute the pose of each agent relative to an anchor node. We present a strategy where, first of all, the agents compute their orientations relative to the anchor. After that, they update the relative position measurements according to these orientations, to finally compute their positions. As contribution we discuss the proposed strategy, that has the interesting property that can be executed in a distributed fashion. The...
In this paper we study consensus-based tributed estimation algorithms for estimating the global tran...
Abstract. In this paper we describe how a group of agents can commonly estimate the position of obje...
This paper investigates the problem of localizing a team of robots in an indoor environment while si...
We propose an anchorless distributed technique for estimating the centroid of a network of agents fr...
Recent research on multi-agent systems has produced a plethora of decentralized controllers that imp...
Multi-agent relative state estimation is critical in enabling full swarm autonomy. However, relative...
Abstract. This paper studies the problem of having mobile robots in a multi-robot system maintain an...
We report two decentralized multi-agent cooperative localization algorithms in which, to reduce the ...
This note deals with the distributed source localization problem by considering a group of unicycle-...
We address the mutual localization problem for I multi-robot system, under the assumption that each ...
This paper considers the problem of localizing multiple agents, e.g. unmanned aerial vehicles (UAVs)...
Abstract — We address the mutual localization problem for a multi-robot system, under the assumption...
Abstract We propose a distributed algorithm for estimating the 3-D pose (position and orientation) o...
We present a decentralized algorithm for estimating mutual poses (relative positions and orientation...
This paper considers the problem of reduction of self-localization errors in multi-agent autonomous ...
In this paper we study consensus-based tributed estimation algorithms for estimating the global tran...
Abstract. In this paper we describe how a group of agents can commonly estimate the position of obje...
This paper investigates the problem of localizing a team of robots in an indoor environment while si...
We propose an anchorless distributed technique for estimating the centroid of a network of agents fr...
Recent research on multi-agent systems has produced a plethora of decentralized controllers that imp...
Multi-agent relative state estimation is critical in enabling full swarm autonomy. However, relative...
Abstract. This paper studies the problem of having mobile robots in a multi-robot system maintain an...
We report two decentralized multi-agent cooperative localization algorithms in which, to reduce the ...
This note deals with the distributed source localization problem by considering a group of unicycle-...
We address the mutual localization problem for I multi-robot system, under the assumption that each ...
This paper considers the problem of localizing multiple agents, e.g. unmanned aerial vehicles (UAVs)...
Abstract — We address the mutual localization problem for a multi-robot system, under the assumption...
Abstract We propose a distributed algorithm for estimating the 3-D pose (position and orientation) o...
We present a decentralized algorithm for estimating mutual poses (relative positions and orientation...
This paper considers the problem of reduction of self-localization errors in multi-agent autonomous ...
In this paper we study consensus-based tributed estimation algorithms for estimating the global tran...
Abstract. In this paper we describe how a group of agents can commonly estimate the position of obje...
This paper investigates the problem of localizing a team of robots in an indoor environment while si...