Automated planning is the field of Artificial Intelligence (AI) that focuses on identifying sequences of actions allowing to reach a goal state from a given initial state. The need of using such techniques in real-world applications has brought popular languages for expressing automated planning problems to provide direct support for continuous and discrete state variables, along with changes that can be either instantaneous or durative. PDDL+ (Planning Domain Definition Language +) models support the encoding of such representations, but the resulting planning problems are notoriously difficult for AI planners to cope with due to non-linear dependencies arising from the variables and infinite search spaces. This difficulty is exacerbated b...
The last decade has witnessed a dramatic progress in the variety and performance of techniques and t...
This chapter describes a model and an underlying theoretical framework for hybrid planning. Modern p...
Sentential and analogical representations constitute two complementary formalisms for describing pro...
AbstractAutomated planning is the field of Artificial Intelligence (AI) that focuses on identifying ...
Hybrid PDDL+ models are amongst the most advanced models of systems and the resulting problems are n...
Planning is the branch of Artificial Intelligence (AI) that seeks to automate reasoning about plans,...
The Planning Domain Definition Language (PDDL) is a formal specification language for symbolic plann...
Current classical planners are very successful in finding (nonoptimal) plans, even for large plannin...
STRIPS-like languages (SLLs) have fostered immense advances in automated planning. In practice, SLLs...
Automated planning is a central area of artificial intelli-gence, involving the design of languages ...
International audienceMany Artificial Intelligence techniques have been developed for intelligent an...
The Planning Domain Definition Language (PDDL) successfully encodes classical planning tasks by easi...
This report illustrates how new methods and techniques from the area of knowledge representation and...
Planning for hybrid systems is important for dealing with real-world applications, and PDDL+ support...
Automated, domain-independent planning is a research area within Artificial Intelligence that is use...
The last decade has witnessed a dramatic progress in the variety and performance of techniques and t...
This chapter describes a model and an underlying theoretical framework for hybrid planning. Modern p...
Sentential and analogical representations constitute two complementary formalisms for describing pro...
AbstractAutomated planning is the field of Artificial Intelligence (AI) that focuses on identifying ...
Hybrid PDDL+ models are amongst the most advanced models of systems and the resulting problems are n...
Planning is the branch of Artificial Intelligence (AI) that seeks to automate reasoning about plans,...
The Planning Domain Definition Language (PDDL) is a formal specification language for symbolic plann...
Current classical planners are very successful in finding (nonoptimal) plans, even for large plannin...
STRIPS-like languages (SLLs) have fostered immense advances in automated planning. In practice, SLLs...
Automated planning is a central area of artificial intelli-gence, involving the design of languages ...
International audienceMany Artificial Intelligence techniques have been developed for intelligent an...
The Planning Domain Definition Language (PDDL) successfully encodes classical planning tasks by easi...
This report illustrates how new methods and techniques from the area of knowledge representation and...
Planning for hybrid systems is important for dealing with real-world applications, and PDDL+ support...
Automated, domain-independent planning is a research area within Artificial Intelligence that is use...
The last decade has witnessed a dramatic progress in the variety and performance of techniques and t...
This chapter describes a model and an underlying theoretical framework for hybrid planning. Modern p...
Sentential and analogical representations constitute two complementary formalisms for describing pro...