There is much interest in deep learning to solve challenges in applying neural network models in real-world environments. In particular, three areas have received considerable attention: adversarial robustness, parameter sparsity, and output stability. Despite numerous attempts to solve these problems independently, little work simultaneously addresses the challenges. In this paper, we address the problem of constructing holistic deep learning models by proposing a novel formulation that solves these issues in combination. Real-world experiments on both tabular and MNIST datasets show that our formulation can simultaneously improve the accuracy, robustness, stability, and sparsity over traditional deep learning models among many others.
翻译:人们非常希望深思熟虑,解决在现实世界环境中应用神经网络模型的挑战。特别是,三个领域受到相当重视:对抗性强、参数宽度和产出稳定性。尽管为独立解决这些问题作出了许多努力,但几乎没有同时解决这些挑战的工作。在本文件中,我们通过提出一种能综合解决这些问题的新颖的提法来解决构建整体深度学习模型的问题。关于表格和MNIST数据集的现实世界实验表明,我们的提法可以同时提高传统的深层学习模型的准确性、稳健性、稳定性和分散性。
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