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International Journal of Advanced Computer Science and Applications(IJACSA), Volume 13 Issue 4, 2022.
Abstract: It is common among security organizations to run processes system call trace data to predict its anomalous behavior, and it is still a dynamic study region. Learning-based algorithms can be employed to solve such problems since it is typical pattern recognition problem. With the advanced progress in operating systems, some datasets became outdated and irrelevant. System calls datasets such as Australian Defense Force Academy Linux Dataset (ADFA-LD) are amongst the current cohort containing labeled data of system call traces for normal and malicious processes on various applications. In this paper, we propose a hybrid deep learning-based anomaly detection system. To advance the detection accurateness and competence of anomaly detection systems, Convolution Neural Network (CNN) with Long Short Term Memory (LSTM) is employed. The raw sequence of system call trace is fed to the CNN network first, reducing the traces' dimension. This reduced trace vector is further fed to the LSTM network to learn the sequences of the system calls and produce the concluding detection outcome. Tensorflow-GPU was used to implement and train the hybrid model and evaluated on the ADFA-LD dataset. Experimental results showed that the proposed method had reduced training time with an enhanced anomaly detection rate. Therefore, this method lowers the false alarm rates.
Frances Osamor and Briana Wellman, “Deep Learning-based Hybrid Model for Efficient Anomaly Detection” International Journal of Advanced Computer Science and Applications(IJACSA), 13(4), 2022. http://dx.doi.org/10.14569/IJACSA.2022.01304111
@article{Osamor2022,
title = {Deep Learning-based Hybrid Model for Efficient Anomaly Detection},
journal = {International Journal of Advanced Computer Science and Applications},
doi = {10.14569/IJACSA.2022.01304111},
url = {http://dx.doi.org/10.14569/IJACSA.2022.01304111},
year = {2022},
publisher = {The Science and Information Organization},
volume = {13},
number = {4},
author = {Frances Osamor and Briana Wellman}
}
Copyright Statement: This is an open access article licensed under a Creative Commons Attribution 4.0 International License, which permits unrestricted use, distribution, and reproduction in any medium, even commercially as long as the original work is properly cited.