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Exploring the Paradigm Shift from Grounding to Skolemization for Complex Query Answering on Knowledge Graphs

Artificial Intelligence 2025-11-13 v2

Abstract

Complex Query Answering (CQA) over incomplete Knowledge Graphs (KGs), typically formalized as reasoning with Existential First-Order predicate logic with one free variable (EFO\textsubscript{1}), faces a fundamental tradeoff between logic fidelity and computational efficiency. This work establishes a Grounding-Skolemization dichotomy to systematically analyze this challenge and motivate a paradigm shift in CQA. While Grounding-based methods inherently suffer from combinatorial explosion, most Skolemization-based methods neglect to explicitly model Skolem functions and compromise logical consistency. To address these limitations, we propose the Logic-constrained Vector Symbolic Architecture (LVSA), a neuro-symbolic framework that unifies a differentiable Skolemization module and a neural negator, as well as a logical constraint-driven optimization protocol to harmonize geometric and logical requirements. Theoretically, LVSA guarantees universality for all EFO\textsubscript{1} queries with low computational complexity. Empirically, it outperforms state-of-the-art Skolemization-based methods and reduces inference costs by orders of magnitude compared to Grounding-based baselines.

Keywords

Cite

@article{arxiv.2509.10837,
  title  = {Exploring the Paradigm Shift from Grounding to Skolemization for Complex Query Answering on Knowledge Graphs},
  author = {Yuyin Lu and Hegang Chen and Shanrui Xie and Yanghui Rao and Haoran Xie and Fu Lee Wang and Qing Li},
  journal= {arXiv preprint arXiv:2509.10837},
  year   = {2025}
}
R2 v1 2026-07-01T05:34:39.812Z