ENN: A Neural Network With DCT Adaptive Activation Functions

IF 8.7 1区工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Journal of Selected Topics in Signal Processing Pub Date : 2024-02-01 DOI:10.1109/JSTSP.2024.3361154

Marc Martinez-Gost;Ana Pérez-Neira;Miguel Ángel Lagunas

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Abstract

The expressiveness of neural networks highly depends on the nature of the activation function, although these are usually assumed predefined and fixed during the training stage. Under a signal processing perspective, in this article we present Expressive Neural Network (ENN), a novel model in which the non-linear activation functions are modeled using the Discrete Cosine Transform (DCT) and adapted using backpropagation during training. This parametrization keeps the number of trainable parameters low, is appropriate for gradient-based schemes, and adapts to different learning tasks. This is the first non-linear model for activation functions that relies on a signal processing perspective, providing high flexibility and expressiveness to the network. We contribute with insights in the explainability of the network at convergence by recovering the concept of bump, this is, the response of each activation function in the output space. Finally, through exhaustive experiments we show that the model can adapt to classification and regression tasks. The performance of ENN outperforms state of the art benchmarks, providing above a 40% gap in accuracy in some scenarios.

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ENN：带有 DCT 自适应激活函数的神经网络

神经网络的表现力在很大程度上取决于激活函数的性质，尽管这些函数通常在训练阶段被假定为预定义和固定的。在本文中，我们从信号处理的角度介绍了表达式神经网络（ENN），这是一种新型模型，其中的非线性激活函数使用离散余弦变换（DCT）建模，并在训练过程中使用反向传播进行调整。这种参数化方法可减少可训练参数的数量，适合基于梯度的方案，并能适应不同的学习任务。这是首个基于信号处理视角的激活函数非线性模型，为网络提供了高度的灵活性和表现力。我们通过恢复凹凸的概念，即每个激活函数在输出空间的响应，对网络收敛时的可解释性提出了见解。最后，我们通过详尽的实验表明，该模型可以适应分类和回归任务。ENN 的性能优于最先进的基准，在某些情况下准确率的差距超过 40%。

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来源期刊

IEEE Journal of Selected Topics in Signal Processing 工程技术-工程：电子与电气

CiteScore

19.00

自引率

1.30%

发文量

135

审稿时长

3 months

期刊介绍： The IEEE Journal of Selected Topics in Signal Processing (JSTSP) focuses on the Field of Interest of the IEEE Signal Processing Society, which encompasses the theory and application of various signal processing techniques. These techniques include filtering, coding, transmitting, estimating, detecting, analyzing, recognizing, synthesizing, recording, and reproducing signals using digital or analog devices. The term "signal" covers a wide range of data types, including audio, video, speech, image, communication, geophysical, sonar, radar, medical, musical, and others. The journal format allows for in-depth exploration of signal processing topics, enabling the Society to cover both established and emerging areas. This includes interdisciplinary fields such as biomedical engineering and language processing, as well as areas not traditionally associated with engineering.

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