A novel dynamic machine learning-based eXplainable fusion monitoring: Application to industrial and chemical processes DOI Creative Commons
Husnain Ali, Rizwan Safdar, Yuanqiang Zhou

et al.

Machine Learning Science and Technology, Journal Year: 2024, Volume and Issue: 6(1), P. 015005 - 015005

Published: Dec. 17, 2024

Abstract The complexity and fusion dynamism of the modern industrial chemical sectors have been increasing with rapid progress IR 4.0–5.0. transformative characteristics Industry 4.0–5.0 not fully explored in terms fundamental importance explainability. Traditional monitoring techniques for automatic anomaly detection, identifying potential variables, root cause analysis fault information are intelligent enough to tackle intricate problems real-time practices sectors. This study presents a novel dynamic machine learning based explainable approach address issues process systems. methodology aims detect faults, identify their key causes feature analyze path propagation time magnitude one variable another impact. proposed using domain multivariate granger-entropy-aided independent component (DICA)—distributed canonical correlation approach, incorporating dynamics wrapping supported delay-signed directed graph. utilized application processes verified continuous stirred tank reactor Tennessee Eastman as practical benchmarks. framework’s validations efficiency evaluated established such classic computed ICA DICA standard model scenarios. outcomes results showed that newly developed strategy is preferable previous approaches regarding explainability robust detection identification actual high FDRs low FARs.

Language: Английский

Quantifying algorithmic discrimination: A two-dimensional approach to fairness in artificial intelligence DOI
Rubén González-Sendino, Emilio Serrano, Javier Bajo

et al.

Engineering Applications of Artificial Intelligence, Journal Year: 2025, Volume and Issue: 144, P. 109979 - 109979

Published: Jan. 24, 2025

Language: Английский

Citations

0
Two-layer knowledge graph transformer network-based question and answer explainable recommendation DOI
Ying Li, Ming Li,

Jin Ding

et al.

Engineering Applications of Artificial Intelligence, Journal Year: 2025, Volume and Issue: 149, P. 110542 - 110542

Published: March 13, 2025

Language: Английский

Citations

0
Intelligent machine learning-based multi-model fusion monitoring: application to industrial physio-chemical systems DOI
Husnain Ali, Rizwan Safdar, Weilong Ding

et al.

Control Engineering Practice, Journal Year: 2025, Volume and Issue: 162, P. 106361 - 106361

Published: April 17, 2025

Language: Английский

Citations

0
A Temporal correlation topology graph model based on Mode-intrinsic and Mode-specific characterization using differentiated decoupling module with Distribution independence constraints for Multimode adaptive process monitoring DOI

Keyu Yao,

Hongbo Shi, Bing Song

et al.

Process Safety and Environmental Protection, Journal Year: 2025, Volume and Issue: unknown, P. 107207 - 107207

Published: April 1, 2025

Language: Английский

Citations

0
Novel deep learning based soft sensor feature extraction for part weight prediction in injection molding processes DOI
Weilong Ding, Husnain Ali, Kaihua Gao

et al.

Journal of Manufacturing Systems, Journal Year: 2024, Volume and Issue: 78, P. 58 - 68

Published: Nov. 26, 2024

Language: Английский

Citations

2
A novel dynamic machine learning-based eXplainable fusion monitoring: Application to industrial and chemical processes DOI Creative Commons
Husnain Ali, Rizwan Safdar, Yuanqiang Zhou

et al.

Machine Learning Science and Technology, Journal Year: 2024, Volume and Issue: 6(1), P. 015005 - 015005

Published: Dec. 17, 2024

Abstract The complexity and fusion dynamism of the modern industrial chemical sectors have been increasing with rapid progress IR 4.0–5.0. transformative characteristics Industry 4.0–5.0 not fully explored in terms fundamental importance explainability. Traditional monitoring techniques for automatic anomaly detection, identifying potential variables, root cause analysis fault information are intelligent enough to tackle intricate problems real-time practices sectors. This study presents a novel dynamic machine learning based explainable approach address issues process systems. methodology aims detect faults, identify their key causes feature analyze path propagation time magnitude one variable another impact. proposed using domain multivariate granger-entropy-aided independent component (DICA)—distributed canonical correlation approach, incorporating dynamics wrapping supported delay-signed directed graph. utilized application processes verified continuous stirred tank reactor Tennessee Eastman as practical benchmarks. framework’s validations efficiency evaluated established such classic computed ICA DICA standard model scenarios. outcomes results showed that newly developed strategy is preferable previous approaches regarding explainability robust detection identification actual high FDRs low FARs.

Language: Английский

Citations

2