| [1] | 程方, 秦涛, 赵现勇, 等. 加药量和水力搅拌速度对雨水混凝效果的影响[J]. 环境工程学报, 2012, 6(11): 3905-3909. |
| [2] | 何嘉莉, 袁耀芬, 周沛良, 等. 自来水厂混凝剂自动精准投加系统建设与运行[J]. 中国给水排水, 2021, 37(18): 139-143. |
| [3] | 王涛, 吴福雨, 程紫微, 等. 基于5参数GA-BP模型的出水水质预测——以宁夏某水厂为例[J/OL]. 环境保护科学: 1-10. |
| [4] | 张凯. 集成学习框架下的水厂混凝剂智慧投加预测模型构建 [J/OL]. 工业水处理, 1-11[2024-01-17] https://doi.org/10.19965/j.cnki.iwt.2023-0257. |
| [5] | LIN S B, KIM J, HUA C, et al. Coagulant dosage determination using deep learning-based graph attention multivariate time series forecasting model[J]. Water Research, 2023, 232: 119665. doi: 10.1016/j.watres.2023.119665 |
| [6] | 刘洪波, 黄剑虹, 张国荣, 等. 给水厂混凝剂智能投加模型构建与应用[J]. 上海理工大学学报, 2022, 44(4): 351-356+387. |
| [7] | MAIER H R, MORGAN N, CHOW C W K. Use of artificial neural networks for predicting optimal alum doses and treated water quality parameters[J]. Environmental Modelling and Software, 2004, 19(5): 485-494. doi: 10.1016/S1364-8152(03)00163-4 |
| [8] | VINITHA E V, AHAMMED M, GADEKAR M R. Chemical coagulation of greywater: modelling using artificial neural networks[J]. Water Science and Technology, 2018, 2017(3): 869-877. doi: 10.2166/wst.2018.263 |
| [9] | 余峰, 王珂佳, 张文龙, 等. 基于遗传算法优化BP神经网络的水生态修复原位控浊混凝投药预测[J]. 环境工程, 2023, 41(4): 154-163. |
| [10] | 王涛, 张俊, 王坪, 等. 基于高效絮凝沉淀池与翻板滤池组合工艺的工程案例[J]. 环境工程学报, 2023, 17(3): 1043-1050. |
| [11] | DAYARATHNE H N P, ANGOVE M J, JEONG S, et al. Effect of temperature on turbidity removal by coagulation: Sludge recirculation for rapid settling[J]. Journal of Water Process Engineering, 2022, 46: 102559. doi: 10.1016/j.jwpe.2022.102559 |
| [12] | ZHANG P, CAI Y, WANG J. A simulation-based real-time control system for reducing urban runoff pollution through a stormwater storage tank[J]. Journal of Cleaner Production, 2018, 183: 641-652. doi: 10.1016/j.jclepro.2018.02.130 |
| [13] | 王增帅. 基于集成学习的不平衡数据分类问题研究[D]. 北京: 北京交通大学, 2022. |
| [14] | 王雪晴, 刘小军, 刘艳, 等. 采用最优集成学习的小样本电磁脉冲信号分类[J]. 振动与冲击, 2023, 42(11): 193-198. |
| [15] | YU S W, WEI Y M, FAN J L, et al. Exploring the regional characteristics of inter-provincial CO2 emissions in China: An improved fuzzy clustering analysis based on particle swarm optimization[J]. Applied Energy, 2012, 92: 552-562. |
| [16] | 徐琛辉, 马明辉. 基于拉依达准则的交通数据粗大误差处理优化方法[J]. 上海工程技术大学学报, 2018, 32(1): 4. |
| [17] | 梁曦文, 肖峰, 闵昊凌, 等. 基于ESMD-LSSVM模型的径流式水电站出力预测研究[J]. 中国农村水利水电, 2023(9): 224-229+235. |
| [18] | LU C, DEVOS A, SUYKENS J, et al. Bagging linear sparse Bayesian learning models for variable selection in cancer diagnosis[J]. IEEE Transactions on Information Technology in Biomedicine, 2001, 11(3): 338-347. |
| [19] | 陈俊彦, 卢贤涛, 黄雪锋, 等. 基于Double-Bagging特征降维异质集成入侵检测[J]. 计算机工程与科学, 2023, 45(6): 1011-1019. |
| [20] | 丁世飞, 齐丙娟, 谭红艳. 支持向量机理论与算法研究综述[J]. 电子科技大学学报, 2011, 40(1): 2-10. |
| [21] | CHEN K Y, CHEN H X, ZHOU C L, et al. Comparative analysis of surface water quality prediction performance and identification of key water parameters using different machine learning models based on big data[J]. Water Research, 2020, 171: 115454. doi: 10.1016/j.watres.2019.115454 |
| [22] | 鲁淑霞, 张振莲, 翟俊海. 代价敏感惩罚AdaBoost算法的非平衡数据分类[J]. 南京航空航天大学学报, 2023, 55(2): 339-346. |
| [23] | 徐玲, 景向楠, 杨英, 等. 基于SMOTE-GA-CatBoost算法的全国地表水水质分类评价[J]. 中国环境科学, 2023, 43(7): 3848-3856. |
| [24] | WEI S, CHEN Z, ARUMUGASAMY S K, et al. Data augmentation and machine learning techniques for control strategy development in bio-polymerization process[J]. Environment Science and Ecotechnology, 2022, 11: 100172. doi: 10.1016/j.ese.2022.100172 |
| [25] | 阎有运, 常波, 刘建国, 等. ANFIS在混凝投药前馈控制器中应用的仿真研究[J]. 环境工程学报, 2010, 4(6): 1357-1362. |
| [26] | 庹婧艺, 徐冰峰, 徐悦, 等. 优化RBF神经网络控制水厂混凝剂投加的研究[J]. 中国农村水利水电, 2021(8): 212-215+220. doi: 10.3969/j.issn.1007-2284.2021.08.036 |
| [27] | 伊学农, 韦秋梅, 何通, 等. 基于GA-BP网络混凝投药系统预测模型的研究[J]. 化工自动化及仪表, 2009, 36(2): 75-78. |