Symmetry-Enriched Learning: A Category-Theoretic Framework for Robust Machine Learning Models

Ronald Katende
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Abstract

This manuscript presents a novel framework that integrates higher-order symmetries and category theory into machine learning. We introduce new mathematical constructs, including hyper-symmetry categories and functorial representations, to model complex transformations within learning algorithms. Our contributions include the design of symmetry-enriched learning models, the development of advanced optimization techniques leveraging categorical symmetries, and the theoretical analysis of their implications for model robustness, generalization, and convergence. Through rigorous proofs and practical applications, we demonstrate that incorporating higher-dimensional categorical structures enhances both the theoretical foundations and practical capabilities of modern machine learning algorithms, opening new directions for research and innovation.
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对称丰富学习:稳健机器学习模型的类别理论框架
本手稿提出了一个新颖的框架,将高阶对称和范畴理论整合到机器学习中。我们的贡献包括设计对称性丰富的学习模型、开发利用分类对称性的高级优化技术,以及从理论上分析它们对模型稳健性、泛化和收敛性的影响。通过严格的证明和实际应用,我们证明了结合高维分类结构可以增强现代机器学习算法的理论基础和实际能力,为研究和创新开辟了新的方向。
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