Temporal Graph Neural Network (TGNN) has been receiving a lot of attention recently due to its capability in modeling time-evolving graph-related tasks. Similar to Graph Neural Networks, it is also non-trivial to interpret predictions made by a TGNN due to its black-box nature. A major approach tackling this problems in GNNs is by analyzing the model' responses on some perturbations of the model's inputs, called perturbation-based explanation methods. While these methods are convenient and flexible since they do not need internal access to the model, does this lack of internal access prevent them from revealing some important information of the predictions? Motivated by that question, this work studies the limit of some classes of perturbation-based explanation methods. Particularly, by constructing some specific instances of TGNNs, we show (i) node-perturbation cannot reliably identify the paths carrying out the prediction, (ii) edge-perturbation is not reliable in determining all nodes contributing to the prediction and (iii) perturbing both nodes and edges does not reliably help us identify the graph's components carrying out the temporal aggregation in TGNNs.
翻译:最近,由于在模拟时间变化时的图形相关任务方面的能力,全球时热图神经网络(TGNNN)最近受到了很多关注。与图形神经网络相似,对TGNN因其黑箱性质而作出的预测进行解释也是非三边的。GNN的解决该问题的主要方法之一是分析模型对模型投入(称为“扰动基解释法”的解释方法)某些扰动干扰模型输入过程的反应,分析模型对模型输入输入过程的模型的反应,即模型的称为扰动性解释方法。这些方法由于不需要内部访问模型,是方便和灵活的,但是由于内部访问的缺乏,它们无法透露某些重要预测信息的重要信息?与图形神经网络类似,因此,解释TGNNNNNN(T)的预测也是非三合一的。 这项工作研究某些基于扰动性的解释性解释方法的局限性。我们特别通过建立某些特定的TGNNNNNNNN(i),显示:(ii) NO-扰动-扰动无法可靠地可靠地确定进行预测的路径;(ii) 边缘-扰动不可靠确定所有有助于预测的方法;(ii) 确定对预测作出贡献作出贡献作出贡献作出贡献作出贡献的所有点的路径并不可靠,而且不可靠;(iii) 边缘-扰动不可靠,而且不可靠,确定所有的确定所有的点和边缘-扰动不可靠,以及(三)在T节断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断断的、用来,以,以,以的T的TG的TG的G的G的GGGGG的G的G的G的G的G的G的G的内、和边缘和边缘部分中,没有的GGGGGGGGG的GGGGGGGGGGGGG的G的G的G的G的G的G的G的G的G的G的G的G的G的G的G的G的G的GG的G的G的G的G的G的G的G的G的G的G的G的G的GG
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