通过相对绝对幅度层向相关性传播和多成分评估提高基于归因的神经网络可解释性

IF 7.2 4区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE ACM Transactions on Intelligent Systems and Technology Pub Date : 2024-02-26 DOI:10.1145/3649458
Davor Vukadin, Petar Afrić, Marin Šilić, Goran Delač
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引用次数: 0

摘要

近来,深度神经网络性能的提升促使人们在许多领域开发出了最先进的新方法。然而,神经网络的黑箱性质往往使其无法用于模型可解释性和模型透明度至关重要的领域。多年来,研究人员提出了许多算法来帮助理解神经网络,并为人类专家提供更多信息。最流行的方法之一是层相关性传播(LRP)。这种方法基于非线性分类器的像素分解来分配局部相关性。随着归因方法研究的兴起,人们迫切需要对其性能进行评估和评价。目前已提出了许多衡量标准,每种标准都对归因方法的某一特性进行评估,如忠实性、稳健性或定位性。遗憾的是,没有一种指标被认为是适用于所有情况的最佳指标,研究人员通常使用多种指标来测试归因图的质量。在这项工作中,我们解决了当前 LRP 方案的不足之处,并引入了一种通过层相关性传播来确定输入神经元相关性的新方法。此外,我们将这种方法应用于最近开发的 Vision Transformer 架构,并在两个图像分类数据集(即 ImageNet 和 PascalVOC)上对其性能与现有方法进行了评估。我们的结果清楚地证明了我们提出的方法的优势。此外,我们还讨论了当前基于归因的可解释性评估指标的不足之处,并提出了一种新的评估指标,该指标结合了忠实性、鲁棒性和对比性等概念。我们利用这一新指标来评估各种基于归因的方法的性能。我们的代码可在以下网址获取: https://github.com/davor10105/relative-absolute-magnitude-propagation
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Advancing Attribution-Based Neural Network Explainability through Relative Absolute Magnitude Layer-Wise Relevance Propagation and Multi-Component Evaluation

Recent advancement in deep-neural network performance led to the development of new state-of-the-art approaches in numerous areas. However, the black-box nature of neural networks often prohibits their use in areas where model explainability and model transparency are crucial. Over the years, researchers proposed many algorithms to aid neural network understanding and provide additional information to the human expert. One of the most popular methods being Layer-Wise Relevance Propagation (LRP). This method assigns local relevance based on the pixel-wise decomposition of nonlinear classifiers. With the rise of attribution method research, there has emerged a pressing need to assess and evaluate their performance. Numerous metrics have been proposed, each assessing an individual property of attribution methods such as faithfulness, robustness or localization. Unfortunately, no single metric is deemed optimal for every case, and researchers often use several metrics to test the quality of the attribution maps. In this work, we address the shortcomings of the current LRP formulations and introduce a novel method for determining the relevance of input neurons through layer-wise relevance propagation. Furthermore, we apply this approach to the recently developed Vision Transformer architecture and evaluate its performance against existing methods on two image classification datasets, namely ImageNet and PascalVOC. Our results clearly demonstrate the advantage of our proposed method. Furthermore, we discuss the insufficiencies of current evaluation metrics for attribution-based explainability and propose a new evaluation metric that combines the notions of faithfulness, robustness and contrastiveness. We utilize this new metric to evaluate the performance of various attribution-based methods. Our code is available at: https://github.com/davor10105/relative-absolute-magnitude-propagation

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来源期刊
ACM Transactions on Intelligent Systems and Technology
ACM Transactions on Intelligent Systems and Technology COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-COMPUTER SCIENCE, INFORMATION SYSTEMS
CiteScore
9.30
自引率
2.00%
发文量
131
期刊介绍: ACM Transactions on Intelligent Systems and Technology is a scholarly journal that publishes the highest quality papers on intelligent systems, applicable algorithms and technology with a multi-disciplinary perspective. An intelligent system is one that uses artificial intelligence (AI) techniques to offer important services (e.g., as a component of a larger system) to allow integrated systems to perceive, reason, learn, and act intelligently in the real world. ACM TIST is published quarterly (six issues a year). Each issue has 8-11 regular papers, with around 20 published journal pages or 10,000 words per paper. Additional references, proofs, graphs or detailed experiment results can be submitted as a separate appendix, while excessively lengthy papers will be rejected automatically. Authors can include online-only appendices for additional content of their published papers and are encouraged to share their code and/or data with other readers.
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