Query-Driven Qualitative Constraint Acquisition

Mohamed-Bachir Belaid, Nassim Belmecheri, Arnaud Gotlieb, Nadjib Lazaar, Helge Spieker

JAIR 2024 pp. 241-271

doi:10.1613/JAIR.1.14752 /jair/2024/belaid2024jair-querydriven/

Abstract

Many planning, scheduling or multi-dimensional packing problems involve the design of subtle logical combinations of temporal or spatial constraints. Recently, we introduced GEQCA-I, which stands for Generic Qualitative Constraint Acquisition, as a new active constraint acquisition method for learning qualitative constraints using qualitative queries. In this paper, we revise and extend GEQCA-I to GEQCA-II with a new type of query, universal query, for qualitative constraint acquisition, with a deeper query-driven acquisition algorithm. Our extended experimental evaluation shows the efficiency and usefulness of the concept of universal query in learning randomly-generated qualitative networks, including both temporal networks based on Allen’s algebra and spatial networks based on region connection calculus. We also show the effectiveness of GEQCA-II in learning the qualitative part of real scheduling problems.

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Cite

Text

Belaid et al. "Query-Driven Qualitative Constraint Acquisition." Journal of Artificial Intelligence Research, 2024. doi:10.1613/JAIR.1.14752

Markdown

[Belaid et al. "Query-Driven Qualitative Constraint Acquisition." Journal of Artificial Intelligence Research, 2024.](https://mlanthology.org/jair/2024/belaid2024jair-querydriven/) doi:10.1613/JAIR.1.14752

BibTeX

@article{belaid2024jair-querydriven,
  title     = {{Query-Driven Qualitative Constraint Acquisition}},
  author    = {Belaid, Mohamed-Bachir and Belmecheri, Nassim and Gotlieb, Arnaud and Lazaar, Nadjib and Spieker, Helge},
  journal   = {Journal of Artificial Intelligence Research},
  year      = {2024},
  pages     = {241-271},
  doi       = {10.1613/JAIR.1.14752},
  volume    = {79},
  url       = {https://mlanthology.org/jair/2024/belaid2024jair-querydriven/}
}