In recent years the field of automated planning has significantly advanced and several powerful domain-independent planners have been developed. However, none of these systems clearly outperforms all the others in every known benchmark domain. This observation motivated the idea of configuring and exploiting a portfolio of planners to perform better than any individual planner: some recent planning systems based on this idea achieved significantly good results in experimental analysis and International Planning Competitions. Such results let us suppose that future challenges of the Automated Planning community will converge on designing different approaches for combining existing planning algorithms. This paper reviews existing ...
A planning system’s performance is biased due to many factors related to its design. For example, th...
This thesis presents a new approach to the Arti cial Intelligence (AI) problem of fully automated p...
As classical planning is known to be computationally hard, no single planner is expected to work wel...
Combining the complementary strengths of several algorithms through portfolio approaches has been de...
In the recent years the field of automated plan generation has significantly advanced and several po...
Combining the complementary strengths of several algorithms through portfolio approaches has been de...
The portfolios of planners have arised as a great idea in automated planning. Their main challenge i...
Sequential planning portfolios are very powerful in exploiting the complementary strength of differe...
In order to construct a high-performance portfolio-based planner, a diverse set of candidate algorit...
While several powerful domain-independent planners have recently been developed, no one of these cle...
It is well known that a problem-specific approach can lead to an algorithm that does well on one pro...
We present PbP2, an automated system that generates ef-ficient domain-specific multi-planners from a...
Portfolio planners and parameter tuning are two ideas that have recently attracted significant atten...
One of the latest advances for solving classical planning prob-lems is the development of new approa...
Despite the advances made in the last decade in automated planning, no planner out- performs all th...
A planning system’s performance is biased due to many factors related to its design. For example, th...
This thesis presents a new approach to the Arti cial Intelligence (AI) problem of fully automated p...
As classical planning is known to be computationally hard, no single planner is expected to work wel...
Combining the complementary strengths of several algorithms through portfolio approaches has been de...
In the recent years the field of automated plan generation has significantly advanced and several po...
Combining the complementary strengths of several algorithms through portfolio approaches has been de...
The portfolios of planners have arised as a great idea in automated planning. Their main challenge i...
Sequential planning portfolios are very powerful in exploiting the complementary strength of differe...
In order to construct a high-performance portfolio-based planner, a diverse set of candidate algorit...
While several powerful domain-independent planners have recently been developed, no one of these cle...
It is well known that a problem-specific approach can lead to an algorithm that does well on one pro...
We present PbP2, an automated system that generates ef-ficient domain-specific multi-planners from a...
Portfolio planners and parameter tuning are two ideas that have recently attracted significant atten...
One of the latest advances for solving classical planning prob-lems is the development of new approa...
Despite the advances made in the last decade in automated planning, no planner out- performs all th...
A planning system’s performance is biased due to many factors related to its design. For example, th...
This thesis presents a new approach to the Arti cial Intelligence (AI) problem of fully automated p...
As classical planning is known to be computationally hard, no single planner is expected to work wel...