Outbreak passenger flow is the main cause of rail transit congestion. In this regard, the accurate forecast of passenger flow in advance will facilitate the traffic control department to redeploy infrastructures. Traffic sequence is a typical time series with long temporal dependence. For instance, an emergency may cause traffic congestion for the next several hours. Only a few studies focused on the way to capture long temporal dependence of passenger flow in the rail transit system. Here, an improved model enhanced long-term features based on long-short-term memory (ELF-LSTM) neural network is proposed. It takes full advantages of LSTM Neural Network (LSTM NN) models in processing time series and overcomes its limitations in insufficient learning of long temporal dependency due to time lag. The proposed network strengthens the long temporal dependency features embedded in passenger flow data and incorporates the short-term features to predict the origin destination (OD) flow in the next hour. The experiment results show that ELF-LSTM outperforms other state-of-the-art methods in terms of forecasting.
Urban rail transit passenger flow forecast based on LSTM with enhanced long-term features
IET Intelligent Transport Systems ; 13 , 10 ; 1475-1482
2019-07-04
8 pages
Article (Journal)
Electronic Resource
English
learning (artificial intelligence) , traffic control department , short-term features , origin destination flow , neural nets , road traffic , time series , accurate forecast , urban rail transit passenger flow , forecasting theory , improved model enhanced long-term features , traffic control , ELF-LSTM , rail transit system , rail traffic , long-short-term memory , LSTM Neural Network models , passenger flow data , transportation , LSTM NN , long temporal dependency features , rail transit congestion , traffic sequence , long temporal dependence , traffic engineering computing , typical time series , recurrent neural nets , outbreak passenger flow , traffic congestion
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Urban rail transit passenger flow forecast based on LSTM with enhanced long‐term features
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