Inbound Passenger Flow Prediction at Subway Stations Based on lbCNNM-TFT
Authors: 
Ziqi Wang, Lili Chen, Wei MaoAuthors Info & Claims
Ziqi Wang, Lili Chen, Wei MaoAuthors Info & ClaimsArticle No.: 13, Pages 1 - 7
Abstract
To regulate the operation of metro equipment based on passenger flow data efficiently, a passenger flow prediction model based on lbCNNM-TFT (Learning-Based Convolution Nuclear Norm Minimization - Temporal Fusion Transformers) for urban rail transit is proposed in this paper. lbCNNM-TFT is a cascaded two-stage time series data prediction network. This network uses lbCNNM to perform matrix complementation based on the long-term features of passenger flow sequences firstly to obtain rough prediction results. Then, this result is fused with short-term time series data and some external relevant features. Finally, the model outputs refined prediction values through the encoding-decoding struct of TFT. This method combines non-learning and learning methods to obtain multi-model features of the subway passenger flow time series data and obtain prediction results comprehensively. The experimental data obtained from 15 stations of an actual subway line shows that our combined model outperforms both the single lbCNNM model or the TFT model at 13 out of 15 stations. The mean values for MAE decrease by 34.2 and 6.8 compared to the two models, while the mean values for RMSE decrease by 45.9 and 8.2. Additionally, lbCNNM-TFT outperforms other current deep learning models in terms of accuracy.
References
[1]
Li W, Sui L, Zhou M, Short-term passenger flow forecast for urban rail transit based on multi-source data[J]. EURASIP Journal on Wireless Communications and Networking, 2021, 2021(1): 1-13.
[2]
Li H, Wang Y, Xu X, Short-term passenger flow prediction under passenger flow control using a dynamic radial basis function network[J]. Applied Soft Computing, 2019, 83: 105620.
[3]
Guo J, Xie Z, Qin Y, Short-term abnormal passenger flow prediction based on the fusion of SVR and LSTM[J]. IEEE Access, 2019, 7: 42946-42955.
[4]
Jing Y, Hu H, Guo S, Short-term prediction of urban rail transit passenger flow in external passenger transport hub based on LSTM-LGB-DRS[J]. IEEE Transactions on Intelligent Transportation Systems, 2020, 22(7): 4611-4621.
[5]
Zhang J, Chen F, Cui Z, Deep learning architecture for short-term passenger flow forecasting in urban rail transit[J]. IEEE Transactions on Intelligent Transportation Systems, 2020, 22(11): 7004-7
[6]
Liu G. Time series forecasting via learning convolutionally low-rank models[J]. IEEE Transactions on Information Theory, 2022, 68(5): 3362-3380.
[7]
Liu G, Zhang W. Recovery of future data via convolution nuclear norm minimization[J]. IEEE Transactions on Information Theory, 2022, 69(1): 650-665.
[8]
Xiu C, Sun Y, Peng Q, Learn traffic as a signal: Using ensemble empirical mode decomposition to enhance short-term passenger flow prediction in metro systems[J]. Journal of Rail Transport Planning & Management, 2022, 22: 100311.
[9]
Lim B, Arık S Ö, Loeff N, Temporal fusion transformers for interpretable multi-horizon time series forecasting[J]. International Journal of Forecasting, 2021, 37(4): 1748-1764.
[10]
Wen R, Torkkola K, Narayanaswamy B, A multi-horizon quantile recurrent forecaster[J]. arXiv preprint arXiv:1711.11053, 2017.
[11]
Salinas D, Flunkert V, Gasthaus J, DeepAR: Probabilistic forecasting with autoregressive recurrent networks[J]. International Journal of Forecasting, 2020, 36(3): 1181-1191.
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October 2023
358 pages
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Published: 21 December 2023
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CSAE 2023
CSAE 2023: The 7th International Conference on Computer Science and Application Engineering
October 17 - 19, 2023
Virtual Event, China
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