Explaining Deep Neural Network using Layer-wise Relevance Propagation and Integrated Gradients

2021 IEEE 19th World Symposium on Applied Machine Intelligence and Informatics (SAMI) Pub Date : 2021-01-21 DOI:10.1109/SAMI50585.2021.9378686

Ivan Cík, Andrindrasana David Rasamoelina, M. Mach, P. Sinčák

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引用次数: 7

Abstract

Machine learning has become an integral part of technology in today's world. The field of artificial intelligence is the subject of research by a wide scientific community. In particular, through improved methodology, the availability of big data, and increased computing power, today's machine learning algorithms can achieve excellent performance that sometimes even exceeds the human level. However, due to their nested nonlinear structure, these models are generally considered to be “Black boxes” that do not provide any information about what exactly leads them to provide a specific output. This raised the need to interpret these algorithms and understand how they work as they are applied even in areas where they can cause critical damage. This article describes Integrated Gradients [1] and Layer-wise Relevance Propagation [2] methods and presents individual experiments with. In experiments we have used well-known datasets like MNIST[3], MNIST-Fashion dataset[4], Imagenette and Imagewoof which are subsets of ImageNet [5].

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用分层相关传播和集成梯度解释深度神经网络

机器学习已经成为当今世界技术的一个组成部分。人工智能领域是一个广泛的科学界研究的课题。特别是，通过改进的方法、大数据的可用性和提高的计算能力，今天的机器学习算法可以取得优异的性能，有时甚至超过人类的水平。然而，由于其嵌套的非线性结构，这些模型通常被认为是“黑盒”，它们不提供任何关于是什么导致它们提供特定输出的信息。这就需要解释这些算法，并了解它们是如何工作的，即使它们应用于可能造成严重损害的领域。本文描述了集成梯度[1]和分层相关传播[2]方法，并给出了单个实验。在实验中，我们使用了众所周知的数据集，如MNIST[3]， MNIST- fashion数据集[4]，Imagenette和Imagewoof，它们都是ImageNet[5]的子集。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 IEEE 19th World Symposium on Applied Machine Intelligence and Informatics (SAMI)

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