模糊逻辑视觉网络(FLVN):一种视觉特征匹配的神经符号方法

Francesco Manigrasso, L. Morra, F. Lamberti
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引用次数: 0

摘要

神经-符号整合旨在利用符号知识表示的力量与深度神经网络的学习能力相结合。特别是,逻辑张量网络(ltn)通过将一阶逻辑语言作为实张量之间的可微运算的基础,允许以逻辑公理的形式合并背景知识。然而,很少有研究调查了这种方法对提高零射击学习(ZSL)分类的潜在好处。在这项研究中,我们提出了模糊逻辑视觉网络(FLVN),该网络在神经符号LTN框架内制定了学习视觉语义嵌入空间的任务。FLVN结合了类层次结构形式的先验知识(类和宏类)以及鲁棒的高级归纳偏差。后者允许,例如,处理类级别属性中的异常,并强制相同类的图像之间的相似性,防止过早过拟合到所见类并提高整体性能。FLVN在通用ZSL (GZSL)基准AWA2和CUB上达到了最先进的性能,分别提高了1.3%和3%。总的来说,它以更少的计算开销实现了与最近的ZSL方法相媲美的性能。FLVN可在https://gitlab.com/grains2/flvn上获得。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fuzzy Logic Visual Network (FLVN): A neuro-symbolic approach for visual features matching
Neuro-symbolic integration aims at harnessing the power of symbolic knowledge representation combined with the learning capabilities of deep neural networks. In particular, Logic Tensor Networks (LTNs) allow to incorporate background knowledge in the form of logical axioms by grounding a first order logic language as differentiable operations between real tensors. Yet, few studies have investigated the potential benefits of this approach to improve zero-shot learning (ZSL) classification. In this study, we present the Fuzzy Logic Visual Network (FLVN) that formulates the task of learning a visual-semantic embedding space within a neuro-symbolic LTN framework. FLVN incorporates prior knowledge in the form of class hierarchies (classes and macro-classes) along with robust high-level inductive biases. The latter allow, for instance, to handle exceptions in class-level attributes, and to enforce similarity between images of the same class, preventing premature overfitting to seen classes and improving overall performance. FLVN reaches state of the art performance on the Generalized ZSL (GZSL) benchmarks AWA2 and CUB, improving by 1.3% and 3%, respectively. Overall, it achieves competitive performance to recent ZSL methods with less computational overhead. FLVN is available at https://gitlab.com/grains2/flvn.
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