Urban Rail Transit Passenger Flow Forecasting Method Based on the Coupling of Artificial Fish Swarm and Improved Particle Swarm Optimization Algorithms

Yuan, Yuan; Shao, Chunfu; Cao, Zhichao; Chen, Wenxin; Yin, Anteng; Yue, Hao; Xie, Binglei

doi:10.3390/su11247230

Cited by 8 publications

(6 citation statements)

References 10 publications

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“…Early applications of parametric models often employed growth curves for forecasting metrics like rail transit passenger volumes (Yuan et al [12]). Common among these parametric approaches are various timeseries models and their derivatives, which are praised for their simplicity and interpretability [13][14][15].…”

Section: Introductionmentioning

confidence: 99%

Advanced series decomposition with a gated recurrent unit and graph convolutional neural network for non-stationary data patterns

Han,

Neira-Molina,

Khan

et al. 2024

J Cloud Comp

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In this study, we present the EEG-GCN, a novel hybrid model for the prediction of time series data, adept at addressing the inherent challenges posed by the data's complex, non-linear, and periodic nature, as well as the noise that frequently accompanies it. This model synergizes signal decomposition techniques with a graph convolutional neural network (GCN) for enhanced analytical precision. The EEG-GCN approaches time series data as a one-dimensional temporal signal, applying a dual-layered signal decomposition using both Ensemble Empirical Mode Decomposition (EEMD) and GRU. This two-pronged decomposition process effectively eliminates noise interference and distills the complex signal into more tractable sub-signals. These sub-signals facilitate a more straightforward feature analysis and learning process. To capitalize on the decomposed data, a graph convolutional neural network (GCN) is employed to discern the intricate feature interplay within the sub-signals and to map the interdependencies among the data points. The predictive model then synthesizes the weighted outputs of the GCN to yield the final forecast. A key component of our approach is the integration of a Gated Recurrent Unit (GRU) with EEMD within the GCN framework, referred to as EEMD-GRU-GCN. This combination leverages the strengths of GRU in capturing temporal dependencies and the EEMD's capability in handling non-stationary data, thereby enriching the feature set available for the GCN and enhancing the overall predictive accuracy and stability of the model. Empirical evaluations demonstrate that the EEG-GCN model achieves superior performance metrics. Compared to the baseline GCN model, EEG-GCN shows an average R2 improvement of 60% to 90%, outperforming the other methods. These results substantiate the advanced predictive capability of our proposed model, underscoring its potential for robust and accurate time series forecasting.

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Section: Introductionmentioning

confidence: 99%

Advanced series decomposition with a gated recurrent unit and graph convolutional neural network for non-stationary data patterns

Han,

Neira-Molina,

Khan

et al. 2024

J Cloud Comp

View full text Add to dashboard Cite

show abstract

“…Particle swarm algorithm (PSO) is an algorithm that simulates the feeding behavior of birds (Marini and Walczak, 2015). Particle swarm algorithms have a wide range of applications in optimization problems in areas such as neural network training, combinatorial optimization, image processing and signal processing (Yuan et al, 2019;Huo et al, 2023;Na et al, 2023). The algorithm proposes the concept of particles to simulate the birds in a flock, and the particles learn and exchange information among themselves to achieve the global optimal search (Zhang et al, 2019).…”

Section: Particle Swarm Optimizationmentioning

confidence: 99%

Analysis of influencing factors of carbon emissions from China’s marine fishery energy consumption under different development scenarios

2024

Front. Mar. Sci.

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China’s rapid economic development has consumed a large amount of energy, causing serious environmental pollution problems and contributing to global warming. This paper calculates the carbon emissions of the fishery sector and uses Random Forest (RF) for the first time to analyze the influencing factors of future carbon emissions. The results of the study show that increasing carbon sinks dominate the reduction of carbon emissions in the fisheries sector. Carbon sinks will continue to dominate emission reductions in the fisheries sector if positive mitigation measures are taken. Continuing the current pattern of fisheries development, the fishery population has a significant impact on future carbon emissions. Per capita incomes under a crude economic model will inhibit carbon emission reductions. The research results can provide guidance for the development of fishery low carbon economy and the formulation of emission reduction policies.

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“…The iteration number of tent maps in IAFSA is 10. The initial parameters of PSO are set as follows: The local search ability 1 c = 1.5 and the global search ability 2 c = 1.7 [32]. The initial parameter setting of QGA is set as follows: The coding length of the quantum chromosome is 20.…”

Section: Misalignment Fault Prediction Based On Iafsamentioning

confidence: 99%

Misalignment Fault Prediction of Wind Turbines Based on Improved Artificial Fish Swarm Algorithm

Hua

Xiao

Cao

2021

Entropy

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A misalignment fault is a kind of potential fault in double-fed wind turbines. The reasonable and effective fault prediction models are used to predict its development trend before serious faults occur, which can take measures to repair in advance and reduce human and material losses. In this paper, the Least Squares Support Vector Machine optimized by the Improved Artificial Fish Swarm Algorithm is used to predict the misalignment index of the experiment platform. The mixed features of time domain, frequency domain, and time-frequency domain indexes of vibration or stator current signals are the inputs of the Least Squares Support Vector Machine. The kurtosis of the same signals is the output of the model, and theprinciple of the normal distribution is adopted to set the warning line of misalignment fault. Compared with other optimization algorithms, the experimental results show that the proposed prediction model can predict the development trend of the misalignment index with the least prediction error.

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Urban Rail Transit Passenger Flow Forecasting Method Based on the Coupling of Artificial Fish Swarm and Improved Particle Swarm Optimization Algorithms

Cited by 8 publications

References 10 publications

Advanced series decomposition with a gated recurrent unit and graph convolutional neural network for non-stationary data patterns

Advanced series decomposition with a gated recurrent unit and graph convolutional neural network for non-stationary data patterns

Analysis of influencing factors of carbon emissions from China’s marine fishery energy consumption under different development scenarios

Misalignment Fault Prediction of Wind Turbines Based on Improved Artificial Fish Swarm Algorithm

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