Double Attention: An Optimization Method for the Self-Attention Mechanism Based on Human Attention.

IF 3.9 3区医学 Q1 ENGINEERING, MULTIDISCIPLINARY Biomimetics Pub Date : 2025-01-08 DOI:10.3390/biomimetics10010034

Zeyu Zhang, Bin Li, Chenyang Yan, Kengo Furuichi, Yuki Todo

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Abstract

Artificial intelligence, with its remarkable adaptability, has gradually integrated into daily life. The emergence of the self-attention mechanism has propelled the Transformer architecture into diverse fields, including a role as an efficient and precise diagnostic and predictive tool in medicine. To enhance accuracy, we propose the Double-Attention (DA) method, which improves the neural network's biomimetic performance of human attention. By incorporating matrices generated from shifted images into the self-attention mechanism, the network gains the ability to preemptively acquire information from surrounding regions. Experimental results demonstrate the superior performance of our approaches across various benchmark datasets, validating their effectiveness. Furthermore, the method was applied to patient kidney datasets collected from hospitals for diabetes diagnosis, where they achieved high accuracy with significantly reduced computational demands. This advancement showcases the potential of our methods in the field of biomimetics, aligning well with the goals of developing innovative bioinspired diagnostic tools.

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双重注意：一种基于人的注意的自注意机制优化方法。

人工智能以其卓越的适应性逐渐融入日常生活。自关注机制的出现推动了Transformer架构进入不同的领域，包括在医学中作为一种高效、精确的诊断和预测工具。为了提高准确率，我们提出了双注意（Double-Attention， DA）方法，提高了神经网络对人类注意力的仿生学性能。通过将移位图像生成的矩阵整合到自注意机制中，网络获得了从周围区域抢先获取信息的能力。实验结果证明了我们的方法在各种基准数据集上的优越性能，验证了它们的有效性。此外，该方法应用于从医院收集的用于糖尿病诊断的患者肾脏数据集，在显著减少计算需求的情况下获得了很高的准确性。这一进步展示了我们的方法在仿生学领域的潜力，与开发创新的生物启发诊断工具的目标很好地结合在一起。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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