Optimization of neural network structure using involution operator based on particle swarm optimization for image classification

Xiang Lei, Xiaoyu Lin, Yiwen Zhong, Qixian Chen
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引用次数: 1

Abstract

Deep neural networks have made signifi-cant progress in image classification in recent years, however good deep neural networks take a lot of hu-man labor and computational resources, and they must be developed by person with professional expe-rience. Most good deep neural networks now employ convolution operators for feature extraction, however due to convolution spatially agnostic and channel-specific, they lose their capacity to deal with diverse spaces and visual modes. As a result, this article uses a new operator involution based on the inverse con-volution operator's design principle, which is com-bined with the particle swarm optimization algorithm's (PSO) high precision and quick convergence features, as well as the variable length encoding approach. Convolution operator problems can be solved, and the most effective deep neural network structure for the image classification problem can be generated automatically. Experiments demonstrate that the neu-ral network structure created by the method presented in this study outperforms several similar algorithms in terms of recognition accuracy and number of pa-rameters generated, as well as saving a lot of time and computer resources.
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基于粒子群算法的神经网络结构优化
近年来,深度神经网络在图像分类方面取得了显著的进展,但好的深度神经网络需要大量的人力和计算资源,必须由具有专业经验的人来开发。目前,大多数优秀的深度神经网络都采用卷积算子进行特征提取,但由于卷积与空间无关和通道特定,它们失去了处理不同空间和视觉模式的能力。因此,本文采用了一种基于逆卷积算子设计原理的算子对合,结合粒子群优化算法(PSO)高精度、快速收敛的特点,以及变长编码方法。求解卷积算子问题,自动生成图像分类问题最有效的深度神经网络结构。实验表明,该方法构建的神经网络结构在识别精度和生成的参数数量方面优于几种类似的算法,并且节省了大量的时间和计算机资源。
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