Ontology as neuronal-space manifold: Towards symbolic and numerical artificial embedding - Inria - Institut national de recherche en sciences et technologies du numérique
Communication Dans Un Congrès Année : 2021

Ontology as neuronal-space manifold: Towards symbolic and numerical artificial embedding

Chloé Mercier
Hugo Chateau-Laurent
Frédéric Alexandre
Thierry Viéville

Résumé

Some human cognitive tasks may involve tightly interleaved logical and numerical computations. On the one hand, ontologies allow us to describe symbolic structured knowledge and perform logical inference, providing a rather natural representation of human reasoning as modeled in cognitive psychology. On the other hand, spiking neural networks are a biologically plausible implementation of processing in brain circuits, yet they process numeric vectors rather than symbolic data. Unifying these symbolic and sub-symbolic approaches is still a wide and open question, and the Semantic Pointer Architecture (SPA) based on the Vector Symbolic Architecture (VSA) provides a way to manipulate symbols embedded as numeric vectors that carry semantic information. In this paper, as a step towards filling the symbolic/numerical gap, we propose to map an ontology onto a SPA-based architecture with a preliminary partial implementation into spiking neural networks. More specifically, we focus on ontology standards used in the semantic web such as Resource Description Framework [Schema] (RDF[S]) and the Web Ontology Language (OWL). We provide a detailed implementation example in the case of specific RDFS entailments based on predicate chaining. To that end, we used the neural simulator Nengo with two associative memories in interaction, the first one storing assertions and the second one storing entailment rules. Reporting interesting formal results, our embedding enjoys intrinsic properties allowing semantic reasoning through distributed numerical computing. This original preliminary work thus combines symbolic and numerical approaches for cognitive modeling, which might be useful to model some complex human tasks such as ill-defined problem-solving, involving neuronal knowledge manipulation.
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Dates et versions

hal-03360307 , version 1 (30-09-2021)
hal-03360307 , version 2 (01-11-2021)
hal-03360307 , version 3 (08-11-2021)

Identifiants

  • HAL Id : hal-03360307 , version 2

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Chloé Mercier, Hugo Chateau-Laurent, Frédéric Alexandre, Thierry Viéville. Ontology as neuronal-space manifold: Towards symbolic and numerical artificial embedding. KRHCAI 2021 Workshop on Knowledge Representation for Hybrid & Compositional AI @ KR2021, Nov 2021, Hanoi, Vietnam. ⟨hal-03360307v2⟩
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