Road Network Metric Learning for Estimated Time of Arrival
2020 25TH INTERNATIONAL CONFERENCE ON PATTERN RECOGNITION (ICPR)(2021)
摘要
Recently, deep learning have achieved promising results in Estimated Time of Arrival (ETA), which is considered as predicting the travel time from the origin to the destination along a given path. One of the key techniques is to use embedding vectors to represent the elements of road network, such as the links (road segments). However, the embedding suffers from the data sparsity problem that many links in the road network are traversed by too few floating cars even in large ride-hailing platforms like Uber and DiDi. Insufficient data makes the embedding vectors in an under-fitting status, which undermines the accuracy of ETA prediction. To address the data sparsity problem, we propose the Road Network Metric Learning framework for ETA (RNML-ETA). It consists of two components: (1) a main regression task to predict the travel time, and (2) an auxiliary metric learning task to improve the quality of link embedding vectors. We further propose the triangle loss, a novel loss function to improve the efficiency of metric learning. We validated the effectiveness of RNML-ETA on large scale realworld datasets, by showing that our method outperforms the state-of-the-art model and the promotion concentrates on the cold links with few data.
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关键词
data sparsity problem,ride-hailing platforms,ETA prediction,RNML-ETA,travel time,auxiliary metric learning task,link embedding vectors,cold links,estimated time of arrival,deep learning,road segments,road network metric learning framework
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