English

Similarity Field Theory: A Mathematical Framework for Intelligence

Artificial Intelligence 2026-04-07 v5

Abstract

We posit that transforming similarity relations form the structural basis of comprehensible dynamic systems. This paper introduces Similarity Field Theory, a mathematical framework that formalizes the principles governing similarity values among entities and their evolution. We define: (1) a similarity field S:U×U[0,1]S: U \times U \to [0,1] over a universe of entities UU, satisfying reflexivity S(E,E)=1S(E,E)=1 and treated as a directed relational field (asymmetry and non-transitivity are allowed); (2) the evolution of a system through a sequence Zp=(Xp,S(p))Z_p=(X_p,S^{(p)}) indexed by p=0,1,2,p=0,1,2,\ldots; (3) concepts KK as entities that induce fibers Fα(K)=EUS(E,K)αF_{\alpha}(K)={E\in U \mid S(E,K)\ge \alpha}, i.e., superlevel sets of the unary map SK(E):=S(E,K)S_K(E):=S(E,K); and (4) a generative operator GG that produces new entities. Within this framework, we formalize a generative definition of intelligence: an operator GG is intelligent with respect to a concept KK if, given a system containing entities belonging to the fiber of KK, it generates new entities that also belong to that fiber. Similarity Field Theory thus offers a foundational language for characterizing, comparing, and constructing intelligent systems. At a high level, this framework reframes intelligence and interpretability as geometric problems on similarity fields--preserving and composing level-set fibers--rather than statistical ones. We prove two theorems: (i) asymmetry blocks mutual inclusion; and (ii) stability implies either an anchor coordinate or asymptotic confinement to the target level (up to arbitrarily small tolerance). Together, these results constrain similarity-field evolution and motivate an interpretive lens applicable to large language models. AI systems may be aligned less to safety as such than to human-observable and human-interpretable conceptions of safety, which may not fully determine the underlying safety concept.

Keywords

Cite

@article{arxiv.2509.18218,
  title  = {Similarity Field Theory: A Mathematical Framework for Intelligence},
  author = {Kei-Sing Ng},
  journal= {arXiv preprint arXiv:2509.18218},
  year   = {2026}
}
R2 v1 2026-07-01T05:50:34.886Z