Taming Discretised PDDL+ through Multiple Discretisations

Matteo Cardellini, Marco Maratea, Francesco Percassi, Enrico Scala, Mauro Vallati

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

Abstract

The PDDL+ formalism allows the use of planning techniques in applications that require the ability to perform hybrid discrete-continuous reasoning. PDDL+ problems are notoriously challenging to tackle, and to reason upon them a well-established approach is discretisation. Existing systems rely on a single discretisation delta or, at most, two: a simulation delta to model the dynamics of the environment, and a planning delta, that is used to specify when decisions can be taken. However, there exist cases where this rigid schema is not ideal, for instance when agents with very different speeds need to cooperate or interact in a shared environment, and a more flexible approach that can accommodate more deltas is necessary. To address the needs of this class of hybrid planning problems, in this paper we introduce a reformulation approach that allows the encapsulation of different levels of discretisation in PDDL+ models, hence allowing any domain-independent planning engine to reap the benefits. Further, we provide the community with a new set of benchmarks that highlights the limits of fixed discretisation.
Original languageEnglish
Title of host publicationThe 17th Annual Symposium on Combinatorial Search (SoCS 2024)
EditorsAriel Felner, Jiaoyang Li
PublisherAAAI press
Pages263-264
Number of pages2
Volume17
Edition1
ISBN (Print)9781577358916
DOIs
Publication statusPublished - 1 Jun 2024
Event17th International Symposium on Combinatorial Search - Pomeroy Kananaskis Mountain Lodge , Kananaskis, Canada
Duration: 6 Jun 20248 Jun 2024
Conference number: 17
https://socs24.search-conference.org/

Publication series

NameInternational Symposium on Combinatorial Search
PublisherAAAI
Volume2024
ISSN (Print)2832-9171
ISSN (Electronic)2832-9163

Conference

Conference17th International Symposium on Combinatorial Search
Abbreviated titleSoCS 2024
Country/TerritoryCanada
CityKananaskis
Period6/06/248/06/24
Internet address

Cite this