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 * Richard Valenzano, Nathan R. Sturtevant, Jonathan Schaeffer, and Fan Xie.<<BR>>
 [[http://www.aaai.org/ocs/index.php/ICAPS/ICAPS14/paper/view/7943/8066|A Comparison of Knowledge-Based GBFS Enhancements and Knowledge-Free Exploration]].<<BR>>
In ''Proceedings of the Twenty-Fourth International Conference on Automated Planning and Scheduling (ICAPS 2014)'', pp. 375-379. AAAI Press 2014.
 * Richard Valenzano, Nathan R. Sturtevant, Jonathan Schaeffer and Fan Xie.<<BR>>
 [[A Comparison of Knowledge-Based GBFS Enhancements and Knowledge-Free Exploration|http://www.aaai.org/ocs/index.php/ICAPS/ICAPS14/paper/view/7943/8066]].<<BR>>
 In ''Proceedings of the Twenty-Fourth International Conference on Automated Planning and Scheduling (ICAPS 2014)'', pp. 375-379. AAAI Press 2014.
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== Type-based open list ==
Uses multiple evaluators to assign entries to buckets. All entries in a bucket have the same evaluator values. When retrieving an entry, a bucket is chosen uniformly at random and one of the contained entries is selected uniformly randomly. The algorithm is based on

 * Fan Xie, Martin Mueller, Robert Holte and Tatsuya Imai.<<BR>>
 [[Type-Based Exploration with Multiple Search Queues for Satisficing Planning|http://www.aaai.org/ocs/index.php/AAAI/AAAI14/paper/view/8472/8705]].<<BR>>
 In ''Proceedings of the Twenty-Eigth AAAI Conference Conference on Artificial Intelligence (AAAI 2014)'', pp. 2395-2401. AAAI Press 2014.

{{{
type_based(evaluators)
}}}

 * ''evaluators'' (list of [[Doc/ScalarEvaluator|ScalarEvaluator]]): Evaluators used to determine the bucket for each entry.

Alternation open list

alternates between several open lists.

alt(sublists, boost=0)
  • sublists (list of OpenList): open lists between which this one alternates

  • boost (int): boost value for contained open lists that are restricted to preferred successors

Epsilon-greedy open list

Chooses an entry uniformly randomly with probability 'epsilon', otherwise it returns the minimum entry. The algorithm is based on

epsilon_greedy(eval, pref_only=false, epsilon=0.2)
  • eval (ScalarEvaluator): scalar evaluator

  • pref_only (bool): insert only nodes generated by preferred operators

  • epsilon (double [0.0, 1.0]): probability for choosing the next entry randomly

Pareto open list

Selects one of the Pareto-optimal (regarding the sub-evaluators) entries for removal.

pareto(evals, pref_only=false, state_uniform_selection=false)
  • evals (list of ScalarEvaluator): scalar evaluators

  • pref_only (bool): insert only nodes generated by preferred operators

  • state_uniform_selection (bool): When removing an entry, we select a non-dominated bucket and return its oldest entry. If this option is false, we select uniformly from the non-dominated buckets; if the option is true, we weight the buckets with the number of entries.

Standard open list

Standard open list that uses a single evaluator

single(eval, pref_only=false)
  • eval (ScalarEvaluator): scalar evaluator

  • pref_only (bool): insert only nodes generated by preferred operators

Bucket-based open list

Bucket-based open list implementation that uses a single evaluator. Ties are broken in FIFO order.

single_buckets(eval, pref_only=false)
  • eval (ScalarEvaluator): scalar evaluator

  • pref_only (bool): insert only nodes generated by preferred operators

Tie-breaking open list

tiebreaking(evals, pref_only=false, unsafe_pruning=true)
  • evals (list of ScalarEvaluator): scalar evaluators

  • pref_only (bool): insert only nodes generated by preferred operators

  • unsafe_pruning (bool): allow unsafe pruning when the main evaluator regards a state a dead end

Type-based open list

Uses multiple evaluators to assign entries to buckets. All entries in a bucket have the same evaluator values. When retrieving an entry, a bucket is chosen uniformly at random and one of the contained entries is selected uniformly randomly. The algorithm is based on

type_based(evaluators)
  • evaluators (list of ScalarEvaluator): Evaluators used to determine the bucket for each entry.

FastDownward: Doc/OpenList (last edited 2024-01-11 22:26:38 by XmlRpcBot)