Moving target search is important for robotics applications where unmanned ground vehicles (UGVs) have to follow other friendly or hostile UGVs. Artificial intelligence re-searchers have recently used incremental search to speed up the computation of a simple strategy for the hunter. The fastest incremental search algorithm, Fringe-Retrieving A*, solves moving target search problems only on two-dimensional grids, which are rather unrealistic models for robotics applications. We therefore generalize it to General-ized Fringe-Retrieving A*, which solves moving target search problems on arbitrary graphs, including the state lattices used for UGV navigation
This technical report presents DD * Lite, an efficient incremental search algorithm for problems tha...
An agent is placed in an unknown environment and charged with the task of locating a lost object. Wh...
In this paper, we propose a real-time moving target search algorithm for dynamic and partially obser...
ABSTRACT Moving target search is important for robotics applications where unmanned ground vehicles ...
Incremental search algorithms reuse information from previous searches to speed up the current searc...
Incremental search algorithms, such as Generalized Fringe-Retrieving A * and D * Lite, reuse search ...
Abstract- The A * algorithm is the de facto standard used for pathfinding search. IDA * is a space-e...
In this paper, we study moving-target search, where an agent (= hunter) has to catch a moving target...
Moving-target search, where a hunter has to catch a mov-ing target, is an important problem for vide...
Moving-target search, where a hunter has to catch a moving target, is an important problem for video...
Search of an unknown space by a physical agent (such as an autonomous vehicle) is unique in search. ...
Moving Target Search (MTS) is a dynamic path planning problem, where an agent is trying to reach a m...
This thesis examines search in the physical world, which differs significantly from the searches in ...
Moving Target Search (MTS) is a dynamic path plan-ning problem, where an agent is trying to reach a ...
This paper presents DD * Lite, an efficient incremental search algorithm for problems that can capit...
This technical report presents DD * Lite, an efficient incremental search algorithm for problems tha...
An agent is placed in an unknown environment and charged with the task of locating a lost object. Wh...
In this paper, we propose a real-time moving target search algorithm for dynamic and partially obser...
ABSTRACT Moving target search is important for robotics applications where unmanned ground vehicles ...
Incremental search algorithms reuse information from previous searches to speed up the current searc...
Incremental search algorithms, such as Generalized Fringe-Retrieving A * and D * Lite, reuse search ...
Abstract- The A * algorithm is the de facto standard used for pathfinding search. IDA * is a space-e...
In this paper, we study moving-target search, where an agent (= hunter) has to catch a moving target...
Moving-target search, where a hunter has to catch a mov-ing target, is an important problem for vide...
Moving-target search, where a hunter has to catch a moving target, is an important problem for video...
Search of an unknown space by a physical agent (such as an autonomous vehicle) is unique in search. ...
Moving Target Search (MTS) is a dynamic path planning problem, where an agent is trying to reach a m...
This thesis examines search in the physical world, which differs significantly from the searches in ...
Moving Target Search (MTS) is a dynamic path plan-ning problem, where an agent is trying to reach a ...
This paper presents DD * Lite, an efficient incremental search algorithm for problems that can capit...
This technical report presents DD * Lite, an efficient incremental search algorithm for problems tha...
An agent is placed in an unknown environment and charged with the task of locating a lost object. Wh...
In this paper, we propose a real-time moving target search algorithm for dynamic and partially obser...