Xuebin Wang, Chunxiuzi Liu, Meng Zhao, Ke Zhang, Zengru Di, He Liu
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引用次数: 0
Abstract
This study introduces an artificial neural network (ANN) for image classification task, inspired by the aversive olfactory learning neural circuit in Caenorhabditis elegans (C. elegans). Although artificial neural networks (ANNs) have demonstrated remarkable performance in various tasks, they still encounter challenges including excessive parameterization, high training costs and limited generalization capabilities, etc. C. elegans, boasting a simple nervous system consisting of merely 302 neurons, is capable of exhibiting complex behaviors such as aversive olfactory learning. This research pinpoints key neural circuit related to aversive olfactory learning in C. elegans by means of behavioral experiment and high-throughput RNA sequencing, and then translates it into an architecture of ANN for image classification. Furthermore, other ANNs for image classification with different architectures are constructed for comparative performance analysis to underscore the advantages of the bio-inspired designed architecture. The results show that the ANN inspired by the aversive olfactory learning neural circuit in C. elegans attains higher accuracy, greater consistency and faster convergence rate in the image classification task, particularly when dealing with more complex classification challenges. This study not only demonstrates the potential of bio-inspired design in improving the capabilities of ANNs but also offers a novel perspective and methodology for future ANNs design.
本研究介绍了一种用于图像分类任务的人工神经网络(ANN),其灵感来自于高脚线虫(C. elegans)的厌恶嗅觉学习神经回路。尽管人工神经网络(ANN)在各种任务中表现出了卓越的性能,但它们仍然面临着参数化程度过高、训练成本过高和泛化能力有限等挑战。草履虫的神经系统非常简单,只有 302 个神经元,却能表现出复杂的行为,如厌恶嗅觉学习。本研究通过行为实验和高通量 RNA 测序,确定了与草履虫厌恶嗅觉学习相关的关键神经回路,并将其转化为用于图像分类的 ANN 结构。此外,还构建了其他不同架构的图像分类 ANN 进行性能对比分析,以突出生物启发设计架构的优势。结果表明,在图像分类任务中,受优雅虫的厌恶嗅觉学习神经回路启发的自动分类网络能获得更高的准确性、更大的一致性和更快的收敛速度,尤其是在处理更复杂的分类挑战时。这项研究不仅证明了生物启发设计在提高自动分类系统能力方面的潜力,还为未来的自动分类系统设计提供了新的视角和方法。
期刊介绍:
Advanced Science is a prestigious open access journal that focuses on interdisciplinary research in materials science, physics, chemistry, medical and life sciences, and engineering. The journal aims to promote cutting-edge research by employing a rigorous and impartial review process. It is committed to presenting research articles with the highest quality production standards, ensuring maximum accessibility of top scientific findings. With its vibrant and innovative publication platform, Advanced Science seeks to revolutionize the dissemination and organization of scientific knowledge.