This paper addresses the task of searching for an unknown number of static targets within a known obstacle map using a team of mobile robots equipped with noisy, limited field-of-view sensors. Such sensors may fail to detect a subset of the visible targets or return false positive detections. These measurement sets are used to localize the targets using the Probability Hypothesis Density, or PHD, filter. Robots commu-nicate with each other on a local peer-to-peer basis and with a server or the cloud via access points, exchanging measurements and poses to update their belief about the targets and plan future actions. The server provides a mechanism to collect and synthesize information from all robots and to share the global, albeit time-del...
This paper presents a strategy for providing reliable state estimates that allow a group of robots t...
This paper presents a statistical algorithm for collaborative mobile robot localization. Our approac...
The recent proliferation of sensors and robots has potential to transform fields as diverse as envir...
Abstract — This paper proposes an algorithm for driving a group of resource-constrained robots with ...
Foraging is a common benchmark problem in collective robotics in which a robot (the forager) explore...
Many tasks in the modern world involve collecting information, such as infrastructure inspection, se...
Foraging has been identified as a benchmark for collective robotics. It consists on exploring an are...
A fundamental capability for autonomous robot operations is localization—that is, the ability of a r...
Autonomous robot networks are an effective tool for monitoring large-scale environmental fields. Thi...
Multi-robot teams that intelligently gather information have the potential to transform industries a...
In this paper, we consider the problem of cooperatively localizing a formation of networked mobile r...
© 2015 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Abstract—We study the problem of actively locating a static target using mobile robots equipped with...
This work is situated in the context of collaboratively solving the localization problem for unknown...
The recent proliferation of sensors and robots has potential to transform fields as diverse as envir...
This paper presents a strategy for providing reliable state estimates that allow a group of robots t...
This paper presents a statistical algorithm for collaborative mobile robot localization. Our approac...
The recent proliferation of sensors and robots has potential to transform fields as diverse as envir...
Abstract — This paper proposes an algorithm for driving a group of resource-constrained robots with ...
Foraging is a common benchmark problem in collective robotics in which a robot (the forager) explore...
Many tasks in the modern world involve collecting information, such as infrastructure inspection, se...
Foraging has been identified as a benchmark for collective robotics. It consists on exploring an are...
A fundamental capability for autonomous robot operations is localization—that is, the ability of a r...
Autonomous robot networks are an effective tool for monitoring large-scale environmental fields. Thi...
Multi-robot teams that intelligently gather information have the potential to transform industries a...
In this paper, we consider the problem of cooperatively localizing a formation of networked mobile r...
© 2015 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Abstract—We study the problem of actively locating a static target using mobile robots equipped with...
This work is situated in the context of collaboratively solving the localization problem for unknown...
The recent proliferation of sensors and robots has potential to transform fields as diverse as envir...
This paper presents a strategy for providing reliable state estimates that allow a group of robots t...
This paper presents a statistical algorithm for collaborative mobile robot localization. Our approac...
The recent proliferation of sensors and robots has potential to transform fields as diverse as envir...