Smart City Gnosys

Smart city article details

Title Redefining Urban Traffic Dynamics With Tcn-Fl Driven Traffic Prediction And Control Strategies
ID_Doc 44733
Authors Karthick Raghunath K.M.; Rohith Bhat C.; Vinoth Kumar V.; Athiyoor Kannan V.; Mahesh T.R.; Manikandan K.; Krishnamoorthy N.
Year 2024
Published IEEE Access, 12
DOI http://dx.doi.org/10.1109/ACCESS.2024.3443298
Abstract The smart city traffic management domain is perpetually a crucial sector that requires innovative strategies due to expanding urbanization and vehicle use. In this study, we have introduced a traffic prediction and handling system that utilizes Temporal Convolutional Networks (TCNs) combined with Federated Learning (FL) to deal with urban traffic effectively. This approach leverages the sophisticated functionalities of TCNs to evaluate and estimate traffic trends, such as congested phases, traffic flow, and ideal mobility routes. The system guarantees data privacy and utilizes decentralized information analysis using Federated Learning. In this approach, every point in the intelligent city network, including traffic sensors and cameras, serves to collectively comprehend traffic patterns without disclosing raw data. Using this cooperative method not only improves the model's ability to forecast outcomes accurately but also enables efficient real-time traffic management, with the ability to adapt to changing conditions. The method has shown significant efficacy in enhancing traffic flow and mitigating congestion. The critical criteria are a 20% drop in average commuting times, a 25% drop in traffic congestion, and a 15% enhancement in emergency response times. These statistics highlight the system's efficiency in improving urban traffic control by integrating modern technologies. © 2013 IEEE.
Author Keywords accuracy; Decentralized learning; mobile patterns; normalization; temporal convolution; traffic prediction; transport


Similar Articles

Id Similarity Authors Title Published
60735 View0.931Kumari M.; Ulmas Z.; Suseendra R.; Ramesh J.V.N.; El-Ebiary Y.A.B., Prof.Utilizing Federated Learning For Enhanced Real-Time Traffic Prediction In Smart Urban EnvironmentsInternational Journal of Advanced Computer Science and Applications, 15, 2 (2024)
17678 View0.917Ficili I.; Tricomi G.; Cicceri G.; Longo F.; Vitabile S.; Puliafito A.Decentralized Traffic Management Through A Hybrid Incremental And Federated Learning ApproachProceedings - 2025 IEEE International Conference on Smart Computing, SMARTCOMP 2025 (2025)
4883 View0.904Cao S.; Wu L.; Wu J.; Wu D.; Li Q.A Spatio-Temporal Sequence-To-Sequence Network For Traffic Flow PredictionInformation Sciences, 610 (2022)
52587 View0.903Priya K.; Omkar K.; Naresh R.; Venkatesh K.Spatio-Temporal Traffic Prediction In Urban Area Using Convolutional Temporal Network System6th International Conference on Mobile Computing and Sustainable Informatics, ICMCSI 2025 - Proceedings (2025)
51592 View0.902Pritha A.; Fathima G.Smart Traffic Management: A Deep Learning Revolution In Traffic Prediction - A ReviewIET Conference Proceedings, 2024, 23 (2024)
26403 View0.901Yuan X.; Chen J.; Yang J.; Zhang N.; Yang T.; Han T.; Taherkordi A.Fedstn: Graph Representation Driven Federated Learning For Edge Computing Enabled Urban Traffic Flow PredictionIEEE Transactions on Intelligent Transportation Systems, 24, 8 (2023)
24076 View0.898Jiang Z.Enhancing Urban Traffic Forecasting With Scalable, Privacy-Preserving Federated Learning Approach2024 4th International Conference on Electronic Information Engineering and Computer Technology, EIECT 2024 (2024)
23689 View0.898Sundari K.B.T.; Ganesan K.; Justin S.; Yamsani N.; Maranan R.; Ramya M.Enhanced Traffic Prediction For Smart Cities Through Iot Using Optimized Continual Spatio-Temporal Graph Convolutional Network2024 IEEE 4th International Conference on ICT in Business Industry and Government, ICTBIG 2024 (2024)
47595 View0.895Muhammad M.H.G.; Ahmad R.; Fatima A.; Mohammed A.S.; Raza M.A.; Khan M.A.Secure And Transparent Traffic Congestion Control System For Smart City Using A Federated Learning ApproachInternational Journal of Advanced and Applied Sciences, 11, 7 (2024)
1395 View0.895Tripathi A.N.; Sharma B.A Deep Review: Techniques, Findings And Limitations Of Traffic Flow Prediction Using Machine LearningLecture Notes in Mechanical Engineering (2023)