Abstract
The increasing availability of trajectory recordings has led to the mining of a massive amount of historical track data, allowing for a better understanding of travel behaviors by revealing meaningful motion patterns. In the context of human mobility analysis, the problem of motion prediction assumes a central role and is beneficial for a wide range of applications, including for touristic purposes, such as personalized services or targeted recommendations, and sustainability studies related to crowd management and resource redistribution. This paper tackles a particular case of the trajectory prediction problem, focusing on large-scale mobility traces of short-term foreign tourists. These sparse trajectories, short and non-repetitive, lack spatial and temporal regularity, making prediction analysis based on individual historical motion data unreliable. To face this issue, we hereby propose a deep learning-based approach, taking into account the collective mobility of tourists over the territory. The underlying semantics of motion patterns are captured by means of a long short-term memory (LSTM) neural network model trained on pre-processed location sequences, aiming to predict the next visited place in the trajectory. We tested the methodology on a real-world big dataset, demonstrating its higher feasibility with respect to traditional approaches.
Highlights
Human mobility analysis has gained increasing popularity due to the recent growth in people’s location information availability in the form of massive trajectory data sets
Our model (LSTM) outperformed the Markov approaches, yielding a 5% improvement compared to the best baseline, the global Markov model (GMM), 10% improvement compared to the variable-order Markov model (VGMM), and 33% to the personal Markov model (PMM)
This paper presented a deep learning model to mine human motion patterns, aimed at predicting short-term foreign tourists’ location from place-based trajectories
Summary
Human mobility analysis has gained increasing popularity due to the recent growth in people’s location information availability in the form of massive trajectory data sets. Motion behaviors can be passively collected by mobile phones in terms of cell tower connection or GPS signal, or even actively shared by users on social media platforms. These large volumes of geo-located data enable the opportunity to reveal and integrate motion patterns in a wide variety of contexts [1,2], from recommendation systems [3,4] to mobility modeling applications for smart city and smart enterprise [5,6]. Location prediction is interpreted as inferring the short-term future location of an individual, leveraging his/her current place, past motion activity, and possibly additional side information. It may imply very different problems and approaches, comprising motion flow modeling [7,8,9], individual large-scale mobility analysis [10,11,12], and very fine resolution systems [13,14,15]
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