[1] Harris T J, Boudreau F, Macgregor J F.Performance Assessment of Multivariable Feedback Controllers[J]. Automatica (S0005-1098), 1996, 32(11): 1505-1518. [2] Yang H, Li S Y.Data-driven Subspace Approach to MI-MO Minimum Variance Control performance assessment[C]// 10th World Congress on Intelligent Control & Automation(WCICA). IEEE,2012: 3157-3161 [3] Shah S L, Patwardhan R, Huang B.Multivariate Controller Performance Analysis: Method Application and Challenges[J]. AIChE Symposium Series(Provided by: CiteSeerX.OAI identifier:oai: CiteSeerX. psu: 10.1.1.324.9704), 2002, 98(326): 190-207. [4] Wang Y S, Li S Z, Tian J Y, et al.Performance Assessment of Thermal Power Plant Load Control System based on Covariance Index[J]. Control Engineering Practice (S0967-0661). 2016(54): 58-69. [5] Yu J, Qin S J.Statistical MIMO Controller Performance Monitoring. Part I: Data-driven Convariance Benchmark[J]. Journal of process Control (S0959-1524), 2008, 18(3/4): 277-296. [6] Xiong B, Chen H, An Q.A Multi-objective Distance Friction Minimization Model for Performance Assessment Through Data Envelopment Analysis[J]. European Journal of Operational Research (S0377-2217), 2019, 279(1): 132-142. [7] Sadi M, Arabkoohsar A.Exergoeconomic Analysis of a Combined Solar-Waste Driven Power Plant[J]. Renewable Energy (S0960-1481), 2019, 141(10): 883-893. [8] Persky R, Sauret E.Assessment of Turbine Performance Variability in Response to Power Block Design Decisions for SF6 and CO2 Solar Thermal Power Plants[J].Energy Conversion and Management (S0196-8904), 2018, 169: 255-265. [9] 王立军, 李晓敏. “两个细则”条件下的超临界机组AGC协调控制优化[J]. 现代电力, 2011, 28(2): 84-89. Wang Lijun, Li Xiaomin.Optimization of AGC Coordinated Control for Supercritical Units Under the Condition of "Two Detailed Rules"[J]. Modern Electric Power, 2011, 28(2): 84-89. [10] 冯竞玥, 李治国. 350MW火电机组AGC控制策略优化分析及应用实现[J]. 自动化应用, 2019(5): 120-122, 124 Feng Jingyue, Li Zhiguo.Optimization Analysis and Application Realization of AGC Control Strategy for 350MW Thermal Power Unit[J]. Automatic application, 2019(5): 120-122, 124. [11] Yu Z, Wang J, Huang B, et al.Performance Assessment of PID Control Loops Subject to Setpoint Changes[J]. Journal of process Control (S0959-1524), 2011, 21(8): 1164-1171. [12] 罗鹏. 火电厂协调控制系统建模及控制方法的研究[D]. 北京: 华北电力大学, 2015. Luo Peng.Modeling and Control Method of Coordinated Control System in Thermal Power Plant[D]. Beijing: North China Electric Power University, 2015. |