• Home
• Search Database
• Data Analysis
• AI tools
• UniRi Smart Cities

Smart City Gnosys

Smart city article details

Title	Lightweight Deep Learning-Based Model For Traffic Prediction In Fog-Enabled Dense Deployed Iot Networks
ID_Doc	35257
Authors	Ateya A.A.; Soliman N.F.; Alkanhel R.; Alhussan A.A.; Muthanna A.; Koucheryavy A.
Year	2023
Published	Journal of Electrical Engineering and Technology, 18, 3
DOI	http://dx.doi.org/10.1007/s42835-022-01314-w
Abstract	Internet of Things (IoT) is one of the promising technologies, announced as one of the primary use cases of the fifth-generation cellular systems (5G). It has many applications that cover many fields, moving from indoor applications, e.g., smart homes, smart metering, and healthcare applications, to outdoor applications, including smart agriculture, smart city, and surveillance applications. This produces massive heterogeneous traffic that loads the IoT network and other integrated communication networks, e.g., 5G, which represents a significant challenge in designing IoT networks; especially, with dense deployment scenarios. To this end, this work considers developing a novel artificial intelligence (AI)-based framework for predicting traffic over IoT networks with dense deployment. This facilitates traffic management and avoids network congestion. The developed AI algorithm is a deep learning model based on the convolutional neural network, which is a lightweight algorithm to be implemented by a distributed edge computing node, e.g., a fog node, with limited computing capabilities. The considered IoT model deploys distributed edge computing to enable dense deployment, increase network availability, reliability, and energy efficiency, and reduce communication latency. The developed framework has been evaluated, and the results are introduced to validate the proposed prediction model. © 2022, The Author(s) under exclusive licence to The Korean Institute of Electrical Engineers.
Author Keywords	5G; Cloud; Latency; Mobile edge computing; Tactile Internet

Similar Articles

---

Id	Similarity	Authors	Title	Published
1350	0.902	Mudarakola L.P.; Bukkarayasamudram V.K.; Jadhav S.D.; Goviraboyina S.S.; Sharma S.; Mukherjee S.; Reddy P.C.S.	A Deep Learning Framework For Iot Lightweight Traffic Multi-Classification: Smart-Cities	International Journal of Sensors, Wireless Communications and Control, 14, 3 (2024)
48710	0.893	Zhou S.; Wei C.; Song C.; Pan X.; Chang W.; Yang L.	Short-Term Traffic Flow Prediction Of The Smart City Using 5G Internet Of Vehicles Based On Edge Computing	IEEE Transactions on Intelligent Transportation Systems, 24, 2 (2023)
31654	0.889	Negi S.K.; Sharma S.; Chandra P.K.	Innovations To Enhance Traffic Prediction And Empowering Iov For Smart Cities	ESIC 2025 - 5th International Conference on Emerging Systems and Intelligent Computing, Proceedings (2025)
7021	0.888	Qaffas A.A.	Ai-Driven Distributed Iot Communication Architecture For Smart City Traffic Optimization	Journal of Supercomputing, 81, 8 (2025)
35879	0.884	Chaymae T.; Mhamed R.; Soumia Z.	Machine Learning And 5G Edge Computing For Intelligent Traffic Management	International Journal of Advanced Computer Science and Applications, 16, 6 (2025)
21759	0.88	Rajakumari S.; Natarajan C.; Alone V.N.; Senthilkumar P.; Gayathri R.; John G.J.	Edge Computing In Smart Cities: Enhancing Real-Time Data Processing	2024 2nd International Conference on Advances in Computation, Communication and Information Technology, ICAICCIT 2024 (2024)
17999	0.876	Upadhyay D.; Malhotra S.; Gupta M.; Yadav D.	Deep Neural Network And Convolutional Neural Network Implementation In 5G Enabled Iot For Enhanced Latency	Communications in Computer and Information Science, 2073 CCIS (2025)
22878	0.875	Anu Priya S.; Rajesh kanna B.; Beaulah Jeyavathana R.; Bhat N.; Rajalakshmi S.; Srimathi S.	Employing A Deep Learning Technique To Categorize Internet Of Things (Iot) Traffic In A Smart City Context	2023 IEEE International Conference on Research Methodologies in Knowledge Management, Artificial Intelligence and Telecommunication Engineering, RMKMATE 2023 (2023)
32139	0.873	Elhanashi A.; Dini P.; Saponara S.; Zheng Q.	Integration Of Deep Learning Into The Iot: A Survey Of Techniques And Challenges For Real-World Applications	Electronics (Switzerland), 12, 24 (2023)
22879	0.87	Mahesh C.; Sumithra M.; Rao Ranga M.; Kumar K.R.; Suganthi D.; Karthiyayini S.	Employing A Deep Learning Technique To Categorize Internet Of Things (Iot) Traffic In A Smart City Context	Proceedings of the 2023 2nd International Conference on Augmented Intelligence and Sustainable Systems, ICAISS 2023 (2023)