基于 LSTM 自动编码器的深度神经网络用于大麦基因型到表型预测

Guanjin Wang, Junyu Xuan, Penghao Wang, Chengdao Li, Jie Lu
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引用次数: 0

摘要

人工智能(AI)已成为精准农业的关键驱动力,有助于提高作物生产力、优化资源利用、农场可持续性和知情决策。此外,基因组测序技术的发展也大大增加了作物基因组资源,加深了我们对遗传变异的理解,提高了作物的理想性状,从而优化了作物在各种环境中的表现。由于机器学习(ML)和深度学习(DL)算法在捕捉大型高维数据集中的复杂相互作用方面表现出色,人们对使用这些算法进行基因型对基因型预测的兴趣与日俱增。在这项工作中,我们提出了一种基于 LSTM 自动编码器的新模型,用于大麦基因型对表型预测,特别是开花时间和谷物产量估计,这可能有助于优化产量和管理实践。我们的模型优于其他基线方法,证明了它在处理复杂的高维农业数据集和提高作物表型预测性能方面的潜力。
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LSTM Autoencoder-based Deep Neural Networks for Barley Genotype-to-Phenotype Prediction
Artificial Intelligence (AI) has emerged as a key driver of precision agriculture, facilitating enhanced crop productivity, optimized resource use, farm sustainability, and informed decision-making. Also, the expansion of genome sequencing technology has greatly increased crop genomic resources, deepening our understanding of genetic variation and enhancing desirable crop traits to optimize performance in various environments. There is increasing interest in using machine learning (ML) and deep learning (DL) algorithms for genotype-to-phenotype prediction due to their excellence in capturing complex interactions within large, high-dimensional datasets. In this work, we propose a new LSTM autoencoder-based model for barley genotype-to-phenotype prediction, specifically for flowering time and grain yield estimation, which could potentially help optimize yields and management practices. Our model outperformed the other baseline methods, demonstrating its potential in handling complex high-dimensional agricultural datasets and enhancing crop phenotype prediction performance.
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