Searching for moving targets in large environments is a challenging task that is relevant in several problem domains, such as capturing an invader in a camp, guarding security facilities, and searching for victims in large-scale search and rescue scenarios. The guaranteed search problem is to coordinate the search of a team of agents to guarantee the discovery of all targets. In this paper we present a self-contained solution to this problem in 2.5D real-world domains represented by digital elevation models (DEMs). We introduce hierarchical sampling on DEMs for selecting heuristically the close to minimal set of locations from which the entire surface of the DEM can be guarded. Locations are utilized to form a search graph on which search s...
This paper proposes a motion planning strategy for reconfigurable mobile robots in uneven terrain. P...
Abstract—This paper addresses a novel visibility-based pursuit-evasion problem in which a team of se...
This work focuses on the autonomous exploration of unknown areas by a swarm of mobile robots, referr...
We address the problem of searching for moving targets in large outdoor environments represented by ...
We address the problem of searching for moving targets in large outdoor environments represented by ...
In this paper we present an approach for a pursuit-evasion problem that considers a 2.5d environment...
In this paper we present an approach for a pursuit-evasion problem that considers a 2.5d environment...
This paper addresses a novel visibility-based pursuit-evasion problem in which a team of searchers w...
This thesis examines search in the physical world, which differs significantly from the searches in ...
In this paper, we study a simple means for coordinating teams of simple agents. In particular, we st...
Among common ISR tasks, searching for a target in a complex environment is a problem for which auton...
Planning an effective search for locating mobile-targets is essential in a variety of scenarios (e.g...
In this paper, we propose algorithms for computing optimal trajectories of a group of flying observe...
We study a form of the pursuit-evasion problem, in which one or more searchers must move through a g...
We consider the problem of detecting all moving and evading targets in 2.5D environments with teams ...
This paper proposes a motion planning strategy for reconfigurable mobile robots in uneven terrain. P...
Abstract—This paper addresses a novel visibility-based pursuit-evasion problem in which a team of se...
This work focuses on the autonomous exploration of unknown areas by a swarm of mobile robots, referr...
We address the problem of searching for moving targets in large outdoor environments represented by ...
We address the problem of searching for moving targets in large outdoor environments represented by ...
In this paper we present an approach for a pursuit-evasion problem that considers a 2.5d environment...
In this paper we present an approach for a pursuit-evasion problem that considers a 2.5d environment...
This paper addresses a novel visibility-based pursuit-evasion problem in which a team of searchers w...
This thesis examines search in the physical world, which differs significantly from the searches in ...
In this paper, we study a simple means for coordinating teams of simple agents. In particular, we st...
Among common ISR tasks, searching for a target in a complex environment is a problem for which auton...
Planning an effective search for locating mobile-targets is essential in a variety of scenarios (e.g...
In this paper, we propose algorithms for computing optimal trajectories of a group of flying observe...
We study a form of the pursuit-evasion problem, in which one or more searchers must move through a g...
We consider the problem of detecting all moving and evading targets in 2.5D environments with teams ...
This paper proposes a motion planning strategy for reconfigurable mobile robots in uneven terrain. P...
Abstract—This paper addresses a novel visibility-based pursuit-evasion problem in which a team of se...
This work focuses on the autonomous exploration of unknown areas by a swarm of mobile robots, referr...