[1] M Koppanen, T Kesti, M Kokko et al. An online flow-imaging particle counter and conventional water quality sensors detect drinking water contamination in the presence of normal water quality fluctuations. Water Research, 213, 118149-118161(2022).

[2] Y Sun, Z Chen, G X Wu et al. Characteristics of water quality of municipal wastewater treatment plants in China: Implications for resources utilization and management. Journal of Cleaner Production, 131, 1-9(2016).

[3] H Z Hu, S L Sun. China Statistical Yearbook on Environment, 20-23(2021).

[4] B Tang, B Wei, D C Wu et al. Experimental research of turbidity influence on water quality monitoring of COD in UV-visible spectroscopy. Spectroscopy and Spectral Analysis, 34, 3020-3024(2014).

[5] A Nezamzadeh-Ejhieh, A Shirzadi. Enhancement of the photocatalytic activity of ferrous oxide by doping onto the nano-clinoptilolite particles towards photodegradation of tetracycline. Chemosphere, 107, 136-144(2014).

[6] J W Li, Y F Tong, L Guan et al. A turbidity compensation method for COD measurements by UV-vis spectroscopy. Optik, 186, 129-136(2019).

[7] J W Li, S S Pan, J Bian et al. An improved-bagging model for water chemical oxygen demand measurements using UV-vis spectroscopy. IEEE Access, 9, 161834-161845(2021).

[8] X W Chen, G F Yin, N J Zhao et al. Simultaneous determination of nitrate, chemical oxygen demand and turbidity in water based on UV-Vis absorption spectrometry combined with interval analysis. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 244, 118827-118833(2021).

[9] L Qin, C T Zhang, Y Guo et al. Research on visible light indoor location algorithm based on Elman neural network. Acta Optica Sinica, 42, 16-23(2022).

[10] J N Cai, L Meng, H L Liu et al. Estimating chemical oxygen demand in estuarine urban rivers using unmanned aerial vehicle hyperspectral images. Ecological Indicators, 139, 108936(2022).

[11] W S Jia, H Z Zhang, J Ma et al. Study on the predication modeling of COD for water based on UV-VIS spectroscopy and CNN algorithm of deep learning. Spectroscopy and Spectral Analysis, 40, 2981-2988(2020).

[12] M F Zhao, P Tang, B Tang et al. Application of principal component analysis combined fisher discrimination in water quality detection by UV-vis spectroscopy. Journal of Atmospheric and Environmental Optics, 13, 436-446(2018).

[15] S Hochreiter, J Schmidhuber. Long short-term memory. Neural Computation, 9, 1735-1780(1997).

[16] K Cho, B van Merriënboer, C Gulcehre et al. Learning phrase representations using RNN encoder-decoder for statistical machine translation, 1724-1734(2014).

[17] S Miao, C L Zhou, S A AlQahtani et al. Applying machine learning in intelligent sewage treatment: A case study of chemical plant in sustainable cities. Sustainable Cities and Society, 72, 103009-103017(2021).

[18] F Y Zhou, L P Jin, J Dong. Review of convolutional neural network. Chinese Journal of Computers, 40, 1229-1251(2017).

[19] Y Q Jiang, C L Li, L Sun et al. A deep learning algorithm for multi-source data fusion to predict water quality of urban sewer networks. Journal of Cleaner Production, 318, 128533-128543(2021).

[20] C S Hu, F J Cheng, L Ma et al. State of charge estimation for lithium-ion batteries based on TCN-LSTM neural networks. Journal of the Electrochemical Society, 169, 030544(2022).

[21] A Sagheer, M Kotb. Time series forecasting of petroleum production using deep LSTM recurrent networks. Neurocomputing, 323, 203-213(2019).

[22] Y Ma, H G Li. A GRU network-based approach for steam drum water level predictions. Journal of Chemical Engineering of Japan, 53, 198-205(2020).

[23] A Jourabloo, X M Liu. Pose-invariant face alignment via CNN-based dense 3D model fitting. International Journal of Computer Vision, 124, 187-203(2017).

[24] Y Kortli, S Gabsi, L F C L Y Voon et al. Deep embedded hybrid CNN-LSTM network for lane detection on NVIDIA Jetson Xavier NX. Knowledge-Based Systems, 240, 107941(2022).

[25] A Vidal, W Kristjanpoller. Gold volatility prediction using a CNN-LSTM approach. Expert Systems with Applications, 157, 113481-113490(2020).

[26] Z F Wang, Y Man, Y S Hu et al. A deep learning based dynamic COD prediction model for urban sewage. Environmental Science: Water Research & Technology, 5, 2210-2218(2019).

[27] X H Zhou, J P Wang, X K Cao et al. Simulation of future dissolved oxygen distribution in pond culture based on sliding window-temporal convolutional network and trend surface analysis. Aquacultural Engineering, 95, 102200(2021).