可解释性
学习迁移
一般化
计算机科学
机器学习
人工智能
钥匙(锁)
知识转移
传输(计算)
多任务学习
预测建模
偏最小二乘回归
结构化预测
深度学习
训练集
作者
Huiting Lv,Jiawei Yin,Dayong Wu,Ziyuan Rao,Chunhua Su,Jie Kang,Qian Wang,Haikun Ma,Huicong Dong,Yandong Wang,Ru Su
标识
DOI:10.1002/advs.202507362
摘要
Machine learning has emerged as a powerful tool for predicting material properties due to its efficiency and accuracy. However, challenges related to data integrity, particularly the presence of ambiguous data, have limited its broad application. In this work, a novel strategy is proposed that integrates partial label learning and transfer learning to accurately address ambiguous compositional data in predicting the fatigue performance of superalloys. Subsequently, key microstructural features are enriched through thermodynamic calculations based on the composition data, enhancing model interpretability by revealing composition-microstructure-property relationships. This approach not only achieves superior predictive accuracy but also exhibits robust generalization across experimental validation. Given the widespread presence of ambiguous data, this framework holds significant potential for broader applications in materials science.
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