Abstract
Network traffic prediction plays a vital role in effective network management, load evaluation and security warning. Extreme learning machine has the advantages of fast convergence speed and strong generalization ability. Also, it does not easily fall into local optima. The evolutionary algorithm can be used to optimize the number of its hidden layer nodes. However, most of the existing evolutionary algorithms have some adjustable parameters which depend on subjective experience or prior knowledge. Hence, this can affect the model prediction accuracy. Given this context, this paper proposes a network traffic prediction mechanism based on optimized Variational Mode Decomposition (VMD) and Integrated Extreme Learning Machine (ELM). A Scalable Artificial Bee Colony (SABC) algorithm which has fewer adjustable parameters and can thus guarantee the accuracy and stability of the prediction mechanism is also proposed. It can be used in the optimization selection of VMD, Phase Space Reconstruction (PSR) and ELM to achieve higher prediction performance. Finally, we utilize Mackey-Glass, Lorenz chaotic time series of recognized benchmark and a WIDE backbone actual network traffic data to prove the validity of the proposed network traffic prediction mechanism.
Highlights
INTRODUCTIONRELATED WORKS In this paper, in order to decrease the computation amount when conducting many repeated times’ Variational Mode Decomposition (VMD) decomposition and Extreme Learning Machine (ELM) modeling, an improved Artificial Bee Colony algorithm, named Scalable Artificial Bee Colony (SABC) algorithm, is proposed to ensure the reliability of the selection of different tuning parameters
This paper proposed a prediction mechanism based on optimal variational mode decomposition and integrated extreme learning machine to predict the network traffic
For the sub-data set corresponding to each mode after decomposition, the predictive sub-models are established respectively using the integrated extreme learning machine
Summary
RELATED WORKS In this paper, in order to decrease the computation amount when conducting many repeated times’ VMD decomposition and ELM modeling, an improved Artificial Bee Colony algorithm, named Scalable Artificial Bee Colony (SABC) algorithm, is proposed to ensure the reliability of the selection of different tuning parameters In Literature [32], a hybrid mode decomposition (HMD) method (comprised of VMD, sample entropy (SE) and wavelet packet decomposition (WPD)) and online sequential outlier robust extreme learning machine (OSORELM) was proposed to predict wind speed, but they did not use the phase space reconstruction to reflect characteristics of the real system, and the optimized selection of different control parameters was not conducted. After the signal is decomposed into the optimized number of K modes, the ELM method is introduced to model each mode
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