2023 Intelligent Methods, Systems, and Applications最新文献

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Evaluation of metric and representation learning approaches: Effects of representations driven by relative distance on the performance. 度量和表征学习方法的评估：相对距离驱动的表征对表现的影响。

2023 Intelligent Methods, Systems, and Applications

Pub Date : 2023-07-01 Epub Date: 2023-08-24 DOI: 10.1109/imsa58542.2023.10217475

Anthony B Garza, Rolando Garcia, Marc S Halfon, Hani Z Girgis

Several deep neural network architectures have emerged recently for metric learning. We asked which architecture is the most effective in measuring the similarity or dissimilarity among images. To this end, we evaluated six networks on a standard image set. We evaluated variational autoencoders, Siamese networks, triplet networks, and variational auto-encoders combined with Siamese or triplet networks. These networks were compared to a baseline network consisting of multiple separable convolutional layers. Our study revealed the following: (i) the triplet architecture proved the most effective one due to learning a relative distance - not an absolute distance; (ii) combining auto-encoders with networks that learn metrics (e.g., Siamese or triplet networks) is unwarranted; and (iii) an architecture based on separable convolutional layers is a reasonable simple alternative to triplet networks. These results can potentially impact our field by encouraging architects to develop advanced networks that take advantage of separable convolution and relative distance.

最近出现了几种用于度量学习的深度神经网络架构。我们问哪种建筑在衡量图像之间的相似性或不相似性方面最有效。为此，我们在标准图像集上评估了六个网络。我们评估了变分自动编码器、暹罗网络、三元组网络以及与暹罗或三元组网络相结合的变分自动编码。将这些网络与由多个可分离卷积层组成的基线网络进行比较。我们的研究揭示了以下几点：（i）三元组架构被证明是最有效的架构，因为它学习的是相对距离，而不是绝对距离；（ii）将自动编码器与学习度量的网络（例如暹罗或三元组网络）相结合是不必要的；以及（iii）基于可分离卷积层的架构是三元组网络的合理简单的替代方案。这些结果可能会鼓励架构师开发利用可分离卷积和相对距离的先进网络，从而对我们的领域产生潜在影响。

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