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Enhanced multilayer perceptron with feature selection and grid search for travel mode choice prediction

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  • Li Tang
  • Chuanli Tang
  • Qi Fu

Abstract

Accurate and reliable prediction of individual travel mode choices is crucial for developing multi-mode urban transportation systems, conducting transportation planning and formulating traffic demand management strategies. Traditional discrete choice models have dominated the modelling methods for decades yet suffer from strict model assumptions and low prediction accuracy. In recent years, machine learning (ML) models, such as neural networks and boosting models, are widely used by researchers for travel mode choice prediction and have yielded promising results. However, despite the superior prediction performance, a large body of ML methods, especially the branch of neural network models, is also limited by overfitting and tedious model structure determination process. To bridge this gap, this study proposes an enhanced multilayer perceptron (MLP; a neural network) with two hidden layers for travel mode choice prediction; this MLP is enhanced by XGBoost (a boosting method) for feature selection and a grid search method for optimal hidden neurone determination of each hidden layer. The proposed method was trained and tested on a real resident travel diary dataset collected in Chengdu, China.

Suggested Citation

  • Li Tang & Chuanli Tang & Qi Fu, 2023. "Enhanced multilayer perceptron with feature selection and grid search for travel mode choice prediction," Papers 2304.12698, arXiv.org, revised Oct 2023.
    • Handle: RePEc:arx:papers:2304.12698
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    References listed on IDEAS

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    1. Shenhao Wang & Baichuan Mo & Stephane Hess & Jinhua Zhao, 2021. "Comparing hundreds of machine learning classifiers and discrete choice models in predicting travel behavior: an empirical benchmark," Papers 2102.01130, arXiv.org.
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