Add to ORKGComunicació presentada a: the 26th AAAI Conference on Artificial Intelligence, celebrada a Toronto, Canadà, del 22 al 26 de juliol de 2012In the presence of non-admissible heuristics, A* and other best-first algorithms can be converted into anytime optimal algorithms over OR graphs, by simply continuing the search after the first solution is found. The same trick, however, does not work for best-first algorithms over AND/OR graphs, that must be able to expand leaf nodes of the explicit graph that are not necessarily part of the best partial solution. Anytime optimal variants of AO* must thus address an exploration-exploitation tradeoff: they cannot just ”exploit”, they must keep exploring as well. In this work, we develop one such variant ...
Within the framework of probably approximately correct Markov decision processes (PAC-MDP), much the...
A popular approach to solving a decision process with non-Markovian rewards (NMRDP) is to exploit ...
Incremental heuristic searches reuse their previous search efforts to speed up the current search. A...
Dynamic programming is a well-known approach for solving MDPs. In large state spaces, asynchronous v...
International audience{In this paper, we introduce a new heuristic search algorithm based on mean va...
Dynamic programming is a well-known approach for solv-ing MDPs. In large state spaces, asynchronous ...
Abstract In this paper, we introduce a new heuristic search algorithm based on mean values for anyti...
Dynamic programming is a well-known approach for solving MDPs. In large state spaces, asynchronous v...
Agents operating in the real world often have limited time available for planning their next actions...
We describe how to convert the heuristic search algorithm A * into an anytime algorithm that finds a...
In this paper we explore a novel approach for anytime heuris-tic search, in which the node that is m...
Abstract — We present a sampling-based path planning and replanning algorithm that produces anytime ...
In this paper we explore a novel approach for anytime heuristic search, in which the node that is mo...
This paper presents two new search algorithms: Potential Search (PTS) and Anytime Potential Search/A...
Anytime variants of Dijkstra’s and A * shortest path algo-rithms quickly produce a suboptimal soluti...
Within the framework of probably approximately correct Markov decision processes (PAC-MDP), much the...
A popular approach to solving a decision process with non-Markovian rewards (NMRDP) is to exploit ...
Incremental heuristic searches reuse their previous search efforts to speed up the current search. A...
Dynamic programming is a well-known approach for solving MDPs. In large state spaces, asynchronous v...
International audience{In this paper, we introduce a new heuristic search algorithm based on mean va...
Dynamic programming is a well-known approach for solv-ing MDPs. In large state spaces, asynchronous ...
Abstract In this paper, we introduce a new heuristic search algorithm based on mean values for anyti...
Dynamic programming is a well-known approach for solving MDPs. In large state spaces, asynchronous v...
Agents operating in the real world often have limited time available for planning their next actions...
We describe how to convert the heuristic search algorithm A * into an anytime algorithm that finds a...
In this paper we explore a novel approach for anytime heuris-tic search, in which the node that is m...
Abstract — We present a sampling-based path planning and replanning algorithm that produces anytime ...
In this paper we explore a novel approach for anytime heuristic search, in which the node that is mo...
This paper presents two new search algorithms: Potential Search (PTS) and Anytime Potential Search/A...
Anytime variants of Dijkstra’s and A * shortest path algo-rithms quickly produce a suboptimal soluti...
Within the framework of probably approximately correct Markov decision processes (PAC-MDP), much the...
A popular approach to solving a decision process with non-Markovian rewards (NMRDP) is to exploit ...
Incremental heuristic searches reuse their previous search efforts to speed up the current search. A...