Working Paper: Towards Schema-based Learning from a Category-Theoretic Perspective
Abstract
We introduce a hierarchical categorical framework for Schema-Based Learning (SBL) structured across four interconnected levels. At the schema level, a free multicategory encodes fundamental schemas and transformations. An implementation functor maps syntactic schemas to representational languages, inducing via the Grothendieck construction the total category . Implemented schemas are mapped by a functor into the Kleisli category of the Giry monad, yielding probabilistic models, while an instances presheaf assigns evaluated instance spaces. A semantic category , defined as a full subcategory of , provides semantic grounding through an interpretation functor from . At the agent level, is equipped with a duoidal structure supporting schema-based workflows. A left duoidal action on the category enables workflow execution over mental objects, whose components include mental spaces, predictive models, and a cognitive kernel composed of memory and cognitive modules. Each module is specified by schema-typed interfaces, duoidal workflows, a success condition, and a logical signature. Memory is formalized categorically via memory subsystems, a presheaf , a monoidal operation category , and read/write natural transformations. Together with the category, Mind defines the embodied SBL agent. At higher levels, SBL is represented as an object of the agent architecture category , enabling comparison with heterogeneous paradigms, while the category models multi-agent and agent-environment interactions. Altogether, the framework forms a weak hierarchical -categorical structure linking schema semantics, cognition, embodiment, architectural abstraction, and world-level interaction.
Keywords
Cite
@article{arxiv.2604.10589,
title = {Working Paper: Towards Schema-based Learning from a Category-Theoretic Perspective},
author = {Pablo de los Riscos and Fernando J. Corbacho and Michael A. Arbib},
journal= {arXiv preprint arXiv:2604.10589},
year = {2026}
}
Comments
43 pages, 3 figures