趙春暉

浙江大學信息學部教授

趙春暉(1979-),女,山東萊州人,浙江大學控制科學與工程系,教授,博士生導師,2012年教育部“新世紀優秀人才”。

個人經歷


2006 年,獲東北大學控制理論與控制工程專業,碩士學位,導師王福利教授;
2009 年,獲東北大學控制理論與控制工程專業,博士學位,導師王福利教授;
2009—2010年 香港科技大學化學及生物分子工程系博士后,導師高福榮教授;
2010—2012年 美國加州大學聖巴拉分校化工系博士后, 助理研究員,
導師: Dale E. Seborg教授、Francis J.Doyle III教授;
2012/01-2014/12特聘研究員 浙江大學信息學部控制科學與工程學系
2015/01— 教授 浙江大學信息學部控制科學與工程學院

研究領域


浙江大學特聘研究員
在AIChE Journal、Journal of Process Control、Control Engineering Practice、Industrial & Engineering Chemistry Research、自動化學報等國內外核心期刊發表論文近100篇,SCI檢索60餘篇
研究方向:基於多元統計分析的數據處理與建模;
化工過程監測、故障診斷、質量預測;
糖尿病人工胰臟血糖監測及預測。
科研創新:
(1) 過程監測、診斷及質量預測的研究,主要面向多時段間歇過程,從解決實際問題的角度出發,研究其多 時段特性及時段軟過渡理論,並基於此對過程監測與質量預測問題進行了系統性的研究。
(2) 1型糖尿病“人工胰臟”中的血糖在線預測的研究,將多元統計分析方法引入進來建立回歸預測模型,並提出了針對血糖動特性的個體間“統一”預測模型策略和模型遷移的思想。

學術職務


2008年12月17-20日,第十屆國際Control, Automation, Robotics and Vision大會,越南河內召開,“Process Control”小組主席(co-chair)
核心期刊評審人:
· AIChE Journal
· Chemical Engineering Science
· Industrial & Engineering Chemistry Research
· IEEE Transactions on Control Systems Technology
· Journal of Chemometrics
· Journal of Process Control
· Chemometrics and Intelligent Laboratory Systems
· Chemical Engineering & Technology
· Asia-Pacific Journal of Chemical Engineering
· EURASIP Journal on Advances in Signal Processing
· The Canadian Journal of Chemical Engineering
· 自動化學報
會議評審人:
IFAC2008, 2011; safeprocess2009 (IFAC Symposium);
ADSCHEM2012;DYCOPS2010;
WCICA;CCDCCCC2012。

科研獲獎


榮獲:
2015年中國自動化學會青年女科學家獎
2012 高等學校科學研究優秀成果獎(科學技術)自然科學獎一等獎:
《批次過程高性能控制系統基礎理論研究》高福榮,楊毅陳曦師佳, 趙春暉,葛志強
2011年度高等學校科學研究優秀成果獎(科學技術)自然科學獎二等獎;
《基於多元統計方法的多時段間歇過程監測、故障診斷及質量預測方法》王福利,常玉清,王姝,陸寧雲,
2011年全國優秀博士學位論文提名獎
2010年遼寧省優秀博士學位論文獎;
2009年東北大學校優秀博士學位論文獎;
2007年中國系統模擬技術及其應用學術年會優秀論文獎;
2007年東北大學罕王特鋼博士獎學金。

科研項目


1) NSFC (No. 60774068):基於軟時段劃分的間歇過程在線監測、診斷及質量預測方法的研究;
2)·The Hong Kong Research Grants Council (No. 613107): Development of an Injection Molding Sensor for through Cycle Monitoring and Control,2007.1-2009.12;
3·)N_HKUST639/09, RGC/NSFC joint project: Fault-tolerant control of batch processes with hybrid nature, 2010-2011;
·4)美國全國衛生研究所基金(No. RO1DK085628): Closed-loop Artificial Pancreas: Algorithm Engineering and Clinical Evaluation,2009.9-2012.8;
5).973計劃項目(No. 2012CB720500): 複雜系統運行狀態的監測、診斷與智能調控。

學術論文


1. Chunhui Zhao, Fuli Wang, and Mingxing Jia. Dissimilarity analysis based batch process monitoring using moving windows. AIChE Journal, 2007, 53(5), 1267-1277.
2. Chunhui Zhao, Fuli Wang, Zhizhong Mao, Ningyun Lu, and Mingxing Jia.Quality prediction based on phase-specific average trajectory for batch processes. AIChE Journal, 2008, 54(3), 693-705.
3. Chunhui Zhao, Furong Gao, Yuan Yao, and Fuli Wang. A Robust Calibration Modeling Strategy for Analysis of Interference-subject Spectral Data. AIChE Journal, 2010, 56 (1), 196-206.
4. Chunhui Zhao,Furong Gao, and Fuli Wang. An improved independent component regression modeling and quantitative calibration procedure. AIChE Journal, 2010, 56 (6), 1519-1535.
5. Chunhui Zhao,Furong Gao, Dapeng Niu, and Fuli Wang.Enhanced Process Comprehension and Quality Analysis Based on Subspace Separation for Multiphase Batch Processes. AIChE Journal,2011, 57 (2), 388-403.
6. Chunhui Zhao,Furong Gao. Spectra Data Analysis and Calibration Modeling Method Using Spectra Subspace Separation and Multiblock Independent Component Regression Strategy. AIChE Journal,2011, 57(5),1202–1215.
7. Chunhui Zhao,Furong Gao.A bidirectional Between-set Statistical Analysis Method and Its Applications. AIChE Journal, 2011, 57(5),1233–1249.
8. Chunhui Zhao,Furong Gao. SpectraCalibration Modeling and Statistical Analysisfor Cumulative Quality Interpretation and Prediction. AIChE Journal,2012,58(2),466–479.
9. Chunhui Zhao,Furong Gao.Between-phase based Statistical Analysis and Modeling for Transition Monitoring in Multiphase Batch Processes. AIChE Journal,in press.
10. Chunhui Zhao*,Furong Gao, Youxian Sun. Between-phase calibration modeling and transition analysis for phase-based quality interpretation and prediction. AIChE Journal, in press.
11. Chunhui Zhao, Fuli Wang, Ningyun Lu, and Mingxing Jia. Stage-based soft-transition multiple PCA modeling and on-line monitoring strategy for batch processes. Journal of Process Control, 2007, 17(9), 728–741.
12. Chunhui Zhao,Shengyong Mo, Furong Gao, Ningyun Lu, Yuan Yao.Statistical Analysis and Online Monitoring for Handling Multiphase Batch Processes with Varying Durations. Journal of Process Control,2011, 21(6), 817-829.
13. Chunhui Zhao, Fuli Wang, and Yingwei Zhang. Nonlinear process monitoring based on kernel dissimilarity analysis. Control Engineering Practice, 2009, 17(1), 221-230.
14. Chunhui Zhao, Fuli Wang, Furong Gao, Ningyun Lu, and Mingxing Jia. Adaptive Monitoring Method for Batch Processes Based on Phase Dissimilarity Updating with Limited Modeling Data. Industrial & Engineering Chemistry Research, 2007, 46(14), 4943-4953.
15. Chunhui Zhao, Fuli Wang, Zhizhong Mao, Ningyun Lu, and Mingxing Jia. Improved Knowledge Extraction and Phase-based Quality Prediction for Batch Processes. Industrial & Engineering Chemistry Research, 2008, 47(3), 825-834.
16. Chunhui Zhao, Fuli Wang, Zhizhong Mao, Ningyun Lu, and Mingxing Jia. Improved Batch Process Monitoring and Quality Prediction Based on Multi-phase Statistical Analysis. Industrial & Engineering Chemistry Research, 2008, 47(3), 835-849.
17. Chunhui Zhao, Fuli Wang, Zhizhong Mao, Ningyun Lu, and Mingxing Jia. Adaptive monitoring based on independent component analysis for multiphase batch processes with limited modeling data. Industrial & Engineering Chemistry Research, 2008, 47(9), 3104-3113.
18. Chunhui Zhao, Fuli Wang, Furong Gao, and Yingwei Zhang. Enhanced Process Comprehension and Statistical Analysis for Slow-varying Batch Processes. Industrial & Engineering Chemistry Research, 2008, 47(24), 9996-10008.
19. Chunhui Zhao, Furong Gao, and Fuli Wang. Nonlinear Batch Process Monitoring Using Phase-based Kernel Independent Component Analysis-Principal Component Analysis (KICA-PCA). Industrial & Engineering Chemistry Research, 2009, 48 (20), 9163–9174.
20. Yuan Yao, Chunhui Zhao,and Furong Gao. Batch-to-Batch Steady State Identification Based on Variable Correlation and Mahalanobis Distance. Industrial & Engineering Chemistry Research, 2009, 48(24), 11060-11070.
21. Chunhui Zhao, Furong Gao, and Fuli Wang. Phase-based Joint Modeling and Spectroscopy Analysis for Batch Processes Monitoring. Industrial & Engineering Chemistry Research, 2010, 49 (2), 669–681.
22. Chunhui Zhao, Furong Gao. Multiblock-based Qualitative and Quantitative Spectra Calibration Analysis. Industrial & Engineering Chemistry Research, 2010, 49(18), 8694–8704.
23. Chunhui Zhao,Furong Gao. A Two-step Multiset Regression Analysis (MsRA) Algorithm. Industrial & Engineering Chemistry Research, 2012, 51(3), 1337–1354.
24. Chunhui Zhao, Fuli Wang, and Furong Gao. Covariance-oriented qualitative and quantitative analysis for multistage batch processes. The Canadian Journal of Chemical Engineering, 2009, 87(3), 466-476.
25. Chunhui Zhao,Fuli Wang, and Furong Gao. Improved Calibration Investigation using Phase-wise Local and Cumulative Quality Interpretation and Prediction. Chemometrics and Intelligent Laboratory Systems, 2009, 95(2), 107-121.
26. Chunhui Zhao, Furong Gao. A Two-step Basis Vector Extraction Strategy for Multiset Variable Correlation Analysis. Chemometrics and Intelligent Laboratory Systems, 2011, 107(1), 147-154.
27. Chunhui Zhao, Yuan Yao, Furong Gao, Fuli Wang. Statistical Analysis and Online Monitoring for MultimodeProcesses withBetween-mode Transitions. Chemical Engineering Science, 2010, 65(22), 5961-5975.
28. Chunhui Zhao,Furong Gao. Multiphase Calibration Modeling and Quality Interpretation by Priority Sorting. Chemical Engineering Science, 2011, 66(21), 5400-5409.
29 Chunhui Zhao,Eyal Dassau, Lois Jovanovič, Howard C. Zisser, Francis J. Doyle III,Dale E. Seborg. Predicting Subcutaneous Glucose Concentration Using Latent Variable (LV)-based Statistical Analysis Method for Type 1 Diabetes Mellitus.Journal of Diabetes Science and Technology.
30. 趙春暉,王福利,姚遠,高福榮。基於時段的間歇過程統計建模、在線監測及質量預報(綜述文章),自動化學報,2010, 36(3), 366-374.
31. 趙春暉,王福利,賈明興。基於主元空間數據分佈比較的統計過程監測。儀器儀錶學報。2008, 29(8), 1598-1604.