| 引用本文: | 周平,吴忠卫,张瑞垚,吴永建.基于稀疏表示剪枝集成建模的烧结终点位置智能预测[J].控制理论与应用,2024,41(3):436~446.[点击复制] |
| ZHOU Ping,WU Zhong-wei,ZHANG Rui-yao,WU Yong-jian.Intelligent prediction of burning through point based on sparse representation pruning ensemble modeling[J].Control Theory and Technology,2024,41(3):436~446.[点击复制] |
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| 基于稀疏表示剪枝集成建模的烧结终点位置智能预测 |
| Intelligent prediction of burning through point based on sparse representation pruning ensemble modeling |
| 摘要点击 2320 全文点击 77 投稿时间:2022-03-17 修订日期:2022-07-18 |
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| DOI编号 10.7641/CTA.2022.20190 |
| 2024,41(3):436-446 |
| 中文关键词 智能预测 特征选择 集成学习 稀疏表示 剪枝 烧结终点位置 随机权神经网络(RVFLNs) |
| 英文关键词 intelligent prediction feature selection ensemble learning sparse representation pruning burning through point (BTP) random vector functional-link networks (RVFLNs) |
| 基金项目 国家自然科学基金项目(U22A2049, 61890934), 兴辽英才项目(XLYC1907132)资助. |
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| 中文摘要 |
| 烧结终点位置(BTP)是烧结过程至关重要的参数, 直接决定着最终烧结矿的质量. 由于BTP难以直接在线
检测, 因此, 通过智能学习建模来实现BTP的在线预测并在此基础上进行操作参数调节对提高烧结矿质量具有重要
意义. 针对这一实际工程问题, 首先提出一种基于遗传优化的Wrapper特征选择方法, 可选取使后续预测建模性能最
优的特征组合; 在此基础上, 为了解决单一学习器容易过拟合的问题, 提出了基于随机权神经网络(RVFLNs)的稀疏
表示剪枝(SRP)集成建模算法, 即SRP-ERVFLNs算法. 所提算法采用建模速度快、泛化性能好的RVFLNs 作为个体
基学习器, 采用对基学习器基函数与隐层节点数等参数进行扰动的方式来增加集成学习子模型间的差异性; 同时,
为了进一步提高集成模型的泛化性能与计算效率, 引入稀疏表示剪枝算法, 实现对集成模型的高效剪枝; 最后, 将所
提算法用于烧结过程BTP的预测建模. 工业数据实验表明, 所提方法相比于其他方法具有更好的预测精度、泛化性
能和计算效率. |
| 英文摘要 |
| The burning through point (BTP) is a crucial parameter in sintering process, which directly determines the
quality of the final sinter. Since the BTP is difficult to directly detect online, it is of great significance to realize the online
prediction of BTP through intelligent learning modeling and adjust the operating parameters on this basis to improve the
quality of sinter. Aiming at this practical engineering problem, a Wrapper feature selection method based on the genetic
algorithm is firstly proposed in this paper, which can select the feature combination that optimizes the subsequent predictive
modeling performance as much as possible. Secondly, in order to solve the problem of easy overfitting in intelligent
modeling of a single learner, a sparse representation pruning (SRP) ensemble modeling algorithm based on the random
vector functional-link networks (RVFLNs) is proposed, namely SRP-ERVFLNs. The proposed method uses RVFLNs
with fast modeling speed and good generalization performance as individual base learners, and perturbs the parameters
of the base learner to increase the difference between the ensemble learning sub-models. At the same time, in order to
further improve the generalization performance and computational efficiency of the ensemble model, a sparse representation
pruning algorithm is introduced to achieve effective pruning of the ensemble model. Finally, the proposed SRP-ERVFLNs
algorithm is used for prediction modeling of the BTP in the sintering process. Experiments using industrial data show that
the proposed method has better prediction accuracy, generalization performance and computational efficiency than other
methods. |
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