Relax DARTS: Relaxing the Constraints of Differentiable Architecture Search for Eye Movement Recognition

Hongyu Zhu, Xin Jin, Hongchao Liao, Yan Xiang, Mounim A. El-Yacoubi, Huafeng Qin
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Abstract

Eye movement biometrics is a secure and innovative identification method. Deep learning methods have shown good performance, but their network architecture relies on manual design and combined priori knowledge. To address these issues, we introduce automated network search (NAS) algorithms to the field of eye movement recognition and present Relax DARTS, which is an improvement of the Differentiable Architecture Search (DARTS) to realize more efficient network search and training. The key idea is to circumvent the issue of weight sharing by independently training the architecture parameters $\alpha$ to achieve a more precise target architecture. Moreover, the introduction of module input weights $\beta$ allows cells the flexibility to select inputs, to alleviate the overfitting phenomenon and improve the model performance. Results on four public databases demonstrate that the Relax DARTS achieves state-of-the-art recognition performance. Notably, Relax DARTS exhibits adaptability to other multi-feature temporal classification tasks.
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放松 DARTS:放宽眼动识别的可微分架构搜索限制
眼动生物识别是一种安全、创新的身份识别方法。深度学习方法已显示出良好的性能,但其网络架构依赖于人工设计和先验知识的结合。为了解决这些问题,我们将自动网络搜索(NAS)算法引入眼动识别领域,并提出了 Relax DARTS,它是对可微分架构搜索(DARTS)的改进,以实现更高效的网络搜索和训练。其主要思想是通过独立训练架构参数$α$来规避权重共享问题,从而实现更精确的目标架构。此外,模块输入权重$\beta$的引入允许细胞灵活选择输入,以缓解过拟合现象,提高模型性能。四个公共数据库的结果表明,Relax DARTS达到了最先进的识别性能。值得注意的是,Relax DARTS 还能适应其他多特征时间分类任务。
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