与传统的 C-M 计算相比,机器学习增强了对尖晶微波介电陶瓷脆度的预测

Xiaobin Liu, Chang Su, Qiuxia Huang, Shenghui Yang, Lei Zhang, Xiaolan Xie, Huanfu Zhou
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引用次数: 0

摘要

微波介质陶瓷(MWDC)对推动 5G 技术和通信领域的发展至关重要。对其特性进行预测或计算对于加速 MWDC 的设计和开发具有重要意义。因此,本文研究了基于机器学习的尖晶石 MWDC 的介电常数预测。首先,我们收集了 280 个单相尖晶石 MWDC 条目,并构建了特征工程,其中包括特征生成和特征选择(从生成的 208 个特征中选择了五个主要特征,包括 Mpo、Dar、Mmbe、Aose 和 Dgnve)。接下来,在机器学习模型的训练过程中使用了七种常用算法。最高梯度提升(XGBoost)模型表现最佳,R2 为 0.9095,平均绝对误差(MAE)为 1.02,均方根误差(RMSE)为 1.96。此外,与传统的克劳修斯-莫索蒂(C-M)方程相比,所有机器学习模型都提高了对尖晶石 MWDC 的介电常数的预测(计算精度),从而为应用于无线通信的尖晶石 MWDC 的设计和开发提供了指导。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Machine Learning Enhanced Prediction of Permittivity of Spinel Microwave Dielectric Ceramics Compared to Traditional C-M Calculation
Microwave dielectric ceramic (MWDC) is crucial in advancing the development of 5G technology and the communication field. The prediction or calculation of its properties is of great significance for accelerating the design and development of MWDCs. Therefore, the prediction of permittivity of spinel MWDCs based on machine learning was investigated in this work. Firstly, we collected 280 single-phase spinel MWDC entries and constructed feature engineering, which includes feature generation and feature selection (five dominant features, including Mpo, Dar, Mmbe, Aose and Dgnve, were selected from 208 generated features). Next, seven commonly used algorithms were utilized during the training process of machine learning models. The eXtreme Gradient Boosting (XGBoost) model shows the best performance with R-squared (R2) of 0.9095, Mean Absolute Error (MAE) of 1.02 and Root Mean Square Error (RMSE) of 1.96. Furthermore, all the machine learning models show enhanced prediction (calculation accuracy) of the permittivity of spinel MWDCs compared to the traditional Clausius-Mossotti (C-M) equation, which can provide a guide for the design and development of spinel MWDCs applied for wireless communication.
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