Paper Info
Title
ST-DeLTA: A Novel Spatial-Temporal Value Network Aided Deep Learning Based Intelligent Network Traffic Control System
Abstract
Deep learning has emerged as a popular Artificial Intelligence (AI) technique to make conventional cyber physical systems become intelligent and sustainable. Recently, deep learning has been widely used in the network domain. With the aid of powerful deep neural networks, the communication network can carry out packets forwarding actions intelligently to avoid possible failure and congestion. However, with the high computing cost and process limitation in only the static network scenario, the existing deep learning based network traffic control algorithms cannot satisfy the sustainable requirement of next generation large scale dynamic network. To conquer the existing problems, a novel spatial-temporal value network aided deep learning based intelligent traffic control algorithm referred as ST-DeLTA is proposed in this paper. In ST-DeLTA, the value matrix and spatial temporal training model (ST model) are employed to intelligently extract the spatial as well as temporal features of traffic patterns and make adaptive packets forwarding decision in large scale and dynamic networks. The mathematical analysis gives the computing cost reduction of our proposal, and the computer simulation demonstrates that our proposal has significantly better training and network performance compared with traditional algorithms in terms of training accuracy, transmission throughput, and average packets loss rate.
Year
DOI
Venue
2020
10.1109/TSUSC.2019.2929935
IEEE Transactions on Sustainable Computing
Keywords
DocType
Volume
Network traffic control,packets forwarding,deep learning,convolutional neural network (CNN),deep belief network (DBN)
Journal
5
Issue
Citations 
PageRank 
4
2
0.37
References 
Authors
0
5
Name
Order
Citations
PageRank
Fengxiao Tang1964.83
Bomin Mao231.07
Zubair Md. Fadlullah375645.47
Jiajia Liu4101.84
Nei Kato53982263.66