Abstract
Network congestion-related studies consist mainly of two parts: congestion detection and congestion control. Several researchers have proposed different mechanisms to control congestion and used channel loads or other factors to detect congestion. However, the number of studies concerning congestion detection and going beyond into congestion prediction is low. On this basis, we decide to propose a method for congestion prediction using supervised machine learning. In this paper, we propose a Naive Bayesian network congestion warning classification method for Heterogeneous Vehicular Networks (HetVNETs) using simulated data that can be locally applied in a fog device in a HetVNET. In addition, we propose a centralized and dynamic cloud-fog-based architecture for HetVNET. The Naive Bayesian network congestion warning classification method can be applied in this architecture. Support Vector Machine (SVM), K Nearest Neighbor (KNN) and Random Forest classifiers, which are popular methods in classification problems, are considered to generate congestion warning prediction models. Numerical results show that the proposed Naive Bayesian classifier is more reliable and stable and can accurately predict the data flow warning state in HetVNET. Moreover, based on the obtained simulation results, applying the proposed congestion classification approach can improve the network’s performance in terms of the packet loss ratio, average delay and average throughput, especially in the dense vehicular environments of HetVNET.
Highlights
IntroductionAHeterogeneous Vehicular Network (HetVNET) enables a connected vehicle to inform other smart vehicles on the road by sending and receiving safety driving information (e.g., the location, speed, direction, road hazards, road traffic congestion, and road accidents) using Dedicated Short Range (DSRC) and Long Term Evolution (LTE) technologies [1]
Considering the discussed issues of instability in the performance of the network by increasing the number of vehicles and applying Artificial Intelligence (AI) methods in Heterogeneous Vehicular Network (HetVNET) congestion-related works and the absence of a congestion avoidance mechanism using fog computing technology in HetVNET-related literature, we propose a novel approach to predict congestion warnings using a supervised machine learning classification method in a centralized and dynamic cloudy-fog-based architecture
We evaluated the performance of the proposed Naive Bayesian classifier
Summary
AHeterogeneous Vehicular Network (HetVNET) enables a connected vehicle to inform other smart vehicles on the road by sending and receiving safety driving information (e.g., the location, speed, direction, road hazards, road traffic congestion, and road accidents) using Dedicated Short Range (DSRC) and Long Term Evolution (LTE) technologies [1]. There are usually two phases of network congestion: the first is the detection of congestion, and. The second is the relief of congestion by the use of a control method or a prevention mechanism. The approach to solving the problem of network congestion has focused mainly on controlling congestion, which is in the second phase. If network congestion is not sensed and detected, applying the controlling mechanism (phase two) is meaningless. To initiate the second phase, it is necessary to meet the first phase, which is congestion detection [2]. The obtained results in the related literature [2], [8], [9] demonstrate that congestion in a dynamic environment, such as a vehicular network with a high number of vehicles, has
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