... of a mobile robot team, using only the robots themselves as landmarks. That is, we describe a method whereby each robot can determine the relative range, bearing and orientation of every other robot in the team, without the use of GPS, external landmarks, or instrumentation of the environment. Our method assumes that each robot is able to measure the relative pose of nearby robots, together with changes in its own pose; using a combination of maximum likelihood estimation (MLE) and numerical optimization, we can subsequently infer the relative pose of every robot in the team. This paper describes the basic formalism, its practical implementation, and presents experimental results obtained using a team of four mobile robots
We present a decentralized algorithm for estimating mutual 3-D poses in a group of mobile robots, su...
In this paper, we consider the problem of cooperatively localizing a formation of networked mobile r...
This paper considers the problem of localizing multiple agents, e.g. unmanned aerial vehicles (UAVs)...
This paper presents a statistical algorithm for collaborative mobile robot localization. Our approac...
A fundamental capability for autonomous robot operations is localization—that is, the ability of a r...
Abstract. This paper studies the problem of having mobile robots in a multi-robot system maintain an...
We present a decentralized algorithm for estimating mutual poses (relative positions and orientation...
Developing a coherent and unified approach to localisation and mapping is one of the prerequisites f...
This paper investigates the problem of localizing a team of robots in an indoor environment while si...
A mobile robot needs to know its pose (position and orientation) in order to navigate and perform us...
This paper presents a new approach to the coopera-tive localization problem, namely collective local...
Developing a coherent and unified approach to localisation and mapping is one of the prerequisites f...
The problem of simultaneous localization and map building for a team of cooperating robots moving in...
The approach presented in this paper allows a team of mobile robots to estimate cooperatively their ...
We present a decentralized algorithm for estimating mutual 3-D poses in a group of mobile robots, su...
We present a decentralized algorithm for estimating mutual 3-D poses in a group of mobile robots, su...
In this paper, we consider the problem of cooperatively localizing a formation of networked mobile r...
This paper considers the problem of localizing multiple agents, e.g. unmanned aerial vehicles (UAVs)...
This paper presents a statistical algorithm for collaborative mobile robot localization. Our approac...
A fundamental capability for autonomous robot operations is localization—that is, the ability of a r...
Abstract. This paper studies the problem of having mobile robots in a multi-robot system maintain an...
We present a decentralized algorithm for estimating mutual poses (relative positions and orientation...
Developing a coherent and unified approach to localisation and mapping is one of the prerequisites f...
This paper investigates the problem of localizing a team of robots in an indoor environment while si...
A mobile robot needs to know its pose (position and orientation) in order to navigate and perform us...
This paper presents a new approach to the coopera-tive localization problem, namely collective local...
Developing a coherent and unified approach to localisation and mapping is one of the prerequisites f...
The problem of simultaneous localization and map building for a team of cooperating robots moving in...
The approach presented in this paper allows a team of mobile robots to estimate cooperatively their ...
We present a decentralized algorithm for estimating mutual 3-D poses in a group of mobile robots, su...
We present a decentralized algorithm for estimating mutual 3-D poses in a group of mobile robots, su...
In this paper, we consider the problem of cooperatively localizing a formation of networked mobile r...
This paper considers the problem of localizing multiple agents, e.g. unmanned aerial vehicles (UAVs)...