Optimizing Neural Network Performance and Interpretability with Diophantine Equation Encoding

Ronald Katende
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Abstract

This paper explores the integration of Diophantine equations into neural network (NN) architectures to improve model interpretability, stability, and efficiency. By encoding and decoding neural network parameters as integer solutions to Diophantine equations, we introduce a novel approach that enhances both the precision and robustness of deep learning models. Our method integrates a custom loss function that enforces Diophantine constraints during training, leading to better generalization, reduced error bounds, and enhanced resilience against adversarial attacks. We demonstrate the efficacy of this approach through several tasks, including image classification and natural language processing, where improvements in accuracy, convergence, and robustness are observed. This study offers a new perspective on combining mathematical theory and machine learning to create more interpretable and efficient models.
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用二叉方程编码优化神经网络性能和可解释性
本文探讨了如何将 Diophantine 方程整合到神经网络(NN)架构中,以提高模型的可解释性、稳定性和效率。通过将神经网络参数编码和解码为 Diophantine 方程的整数解,我们引入了一种新颖的方法来提高深度学习模型的精度和鲁棒性。我们的方法集成了一个自定义损失函数,在训练过程中强制执行 Diophantine 约束,从而实现更好的泛化、降低误差边界,并增强对对抗性攻击的复原力。我们通过包括图像分类和自然语言处理在内的几项任务证明了这种方法的有效性,在准确性、收敛性和稳健性方面都有所改进。这项研究为数学理论与机器学习的结合提供了一个新的视角,以创建更可解释、更高效的模型。
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