Ordyniak, S., Schidler, A., & Szeider, S. (2024). Backdoor DNFs. Journal of Computer and System Sciences, 144, Article 103547. https://doi.org/10.1016/j.jcss.2024.103547
E192-01 - Forschungsbereich Algorithms and Complexity E056-13 - Fachbereich LogiCS E056-23 - Fachbereich Innovative Combinations and Applications of AI and ML (iCAIML)
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Journal:
Journal of Computer and System Sciences
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ISSN:
0022-0000
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Date (published):
1-Sep-2024
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Number of Pages:
15
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Publisher:
ACADEMIC PRESS INC ELSEVIER SCIENCE
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Peer reviewed:
Yes
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Keywords:
Backdoor sets/trees/DNFs; Boolean satisfiability; Distance to triviality; Parameterized complexity
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Abstract:
We introduce backdoor DNFs, as a tool to measure the theoretical hardness of CNF formulas. Like backdoor sets and backdoor trees, backdoor DNFs are defined relative to a tractable class of CNF formulas. Each conjunctive term of a backdoor DNF defines a partial assignment that moves the input CNF formula into the base class. Backdoor DNFs are more expressive and potentially smaller than their predecessors backdoor sets and backdoor trees. We establish the fixed-parameter tractability of the backdoor DNF detection problem. Our results hold for the fundamental base classes Horn and 2CNF, and their combination. We complement our theoretical findings by an empirical study. Our experiments show that backdoor DNFs provide a significant improvement over their predecessors.
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Project title:
Strukturerkennung mit SAT: P36420-N (FWF - Österr. Wissenschaftsfonds)
CC BY 4.0
