Abstract
Mobile networks are expected to face major problems such as low network capacity, high latency, and limited resources but are expected to provide seamless connectivity in the foreseeable future. It is crucial to deliver an adequate level of performance for network services and to ensure an acceptable quality of services for mobile users. Intelligent mobility management is a promising solution to deal with the aforementioned issues. In this context, modeling user mobility behaviour is of great importance in order to extract valuable information about user behaviours and to meet their demands. In this paper, we propose a hybrid user mobility prediction approach for handover management in mobile networks. First, we extract user mobility patterns using a mobility model based on statistical models and deep learning algorithms. We deploy a vector autoregression (VAR) model and a gated recurrent unit (GRU) to predict the future trajectory of a user. We then reduce the number of unnecessary handover signaling messages and optimize the handover procedure using the obtained prediction results. We deploy mobility data generated from real users to conduct our experiments. The simulation results show that the proposed VAR-GRU mobility model has the lowest prediction error in comparison with existing methods. Moreover, we investigate the handover processing and transmission costs for predictive and non-predictive scenarios. It is shown that the handover-related costs effectively decrease when we obtain a prediction in the network. For vertical handover, processing cost and transmission cost improve, respectively, by 57.14% and 28.01%.
Highlights
There are several human mobility data types including mobility data generated in cellular networks, WiFi networks, social networks, and global positioning system (GPS)
We introduced a hybrid vector autoregression (VAR)-gated recurrent unit (GRU) mobility model to predict user future trajectory
After predicting users’ future trajectories, we effectively reduced the required number of handover signalings and optimized the HO signaling procedure based on our predictions
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Foreseeable future mobile communication networks are rightly expected to support high data rates and seamless connectivity for a vast number of devices They are expected to avoid lengthy delays when providing services to mobile users in the network. Deploying predictive handover management, the network can prepare the required services for users in advance to reduce latency and costs [5]. Having predicted the future HO of the user, handover preparation steps can be performed beforehand, and when HO is needed, the process can start from the execution phase This can reduce the number of signaling messages needed to be exchanged and results in lower HO latency. Our main objective is to deploy user mobility prediction as an invaluable tool to optimize the handover signaling procedure.
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