Urban Traffic Flow Prediction Model with CPSO/SSVM Algorithm under the Edge Computing Framework

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Abstract

Urban traffic flow prediction has always been an important realm for smart city build-up. With the development of edge computing technology in recent years, the network edge nodes of smart cities are able to collect and process various types of urban traffic data in real time, which leads to the possibility of deploying intelligent traffic prediction technology with real-time analysis and timely feedback on the edge. In view of the strong nonlinear characteristics of urban traffic flow, multiple dynamic and static influencing factors involved, and increasing difficulty of short-term traffic flow prediction in a metropolitan area, this paper proposes an urban traffic flow prediction model based on chaotic particle swarm optimization algorithm-smooth support vector machine (CPSO/SSVM). The prediction model has built a new second-order smooth function to achieve better approximation and regression effects and has further improved the computational efficiency of the smooth support vector machine algorithm through chaotic particle swarm optimization. Simulation experiment results show that this model can accurately predict urban traffic flow.

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Liu, F., Ma, X., An, X., & Liang, G. (2020). Urban Traffic Flow Prediction Model with CPSO/SSVM Algorithm under the Edge Computing Framework. Wireless Communications and Mobile Computing, 2020. https://doi.org/10.1155/2020/8871998

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