Se-ResNet+SVM模型:从 LAMOST 搜寻热亚矮星的有效方法

Zhongding Cheng, Xiaoming Kong, Tianmin Wu, Aina Zhang, Bowen Liu, Yude Bu, Zhenxin Lei, Yatao Zhang, Zhenping Yi and Meng Liu
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引用次数: 0

摘要

本文提出了一种用于识别热亚矮星的稳健神经网络方法。我们的方法利用挤压-激发残差网络来提取抽象特征,并将这些特征与经验特征相结合,形成混合特征。然后使用支持向量机对这些混合特征进行分类。为了提高准确性,我们采用了两阶段程序。在第一阶段,我们构建了一个二元分类模型来区分热亚战,在测试集上达到了 98.55% 的精确度。在第二阶段,我们采用了一个四级分类模型来进一步完善候选者,在测试集上达到了 91.75% 的精确度。利用二元分类模型,我们对来自 LAMOST DR8 的 333,534 条光谱进行了分类,得到了 3086 个热亚矮星候选星表。随后,我们应用四级分类模型进一步筛选这些候选者。当采用 0.5 和 0.9 的阈值时,我们分别发现了 2132 和 1247 个候选者。在这些候选者中,我们目测了它们的光谱,分别发现了 58 个和 30 个新的热亚矮星,这些发现的精确度分别为 82.04% 和 88.21%。此外,我们还对第一阶段获得的 3086 个候选者进行了评估,发现了 168 个新的热亚矮星,总体精确度达到 62.54%。最后,我们训练了一个 "挤压-激发 "回归模型,其 Teff 的平均绝对误差为 3009 K,log g 的平均绝对误差为 0.20 dex,log(nHe/nH) 的平均绝对误差为 0.42 dex。利用这个模型,我们预测了这 168 个新发现的热亚矮星的大气参数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Se-ResNet+SVM Model: An Effective Method of Searching for Hot Subdwarfs from LAMOST
This paper presents a robust neural network approach for identifying hot subdwarfs. Our method leveraged the Squeeze-and-Excitation Residual Network to extract abstract features, which were combined with experience features to create hybrid features. These hybrid features were then classified using a support vector machine. To enhance accuracy, we employed a two-stage procedure. In the first stage, a binary classification model was constructed to distinguish hot subdwarfs, achieving a precision of 98.55% on the test set. In the second stage, a four-class classification model was employed to further refine the candidates, achieving a precision of 91.75% on the test set. Using the binary classification model, we classified 333,534 spectra from LAMOST DR8, resulting in a catalog of 3086 hot subdwarf candidates. Subsequently, the four-class classification model was applied to filter these candidates further. When applying thresholds of 0.5 and 0.9, we identified 2132 and 1247 candidates, respectively. Among these candidates, we visually inspected their spectra and identified 58 and 30 new hot subdwarfs, respectively, resulting in a precision of 82.04% and 88.21% for these discoveries. Furthermore, we evaluated the 3086 candidates obtained in the first stage and identified 168 new hot subdwarfs, achieving an overall precision of 62.54%. Lastly, we trained a Squeeze-and-Excitation regression model with mean absolute error values of 3009 K for Teff, 0.20 dex for log g, and 0.42 dex for log(nHe/nH). Using this model, we predicted the atmospheric parameters of these 168 newly discovered hot subdwarfs.
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