2021
DOI: 10.1109/access.2021.3077295
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A Novel Method for Detecting Future Generations of Targeted and Metamorphic Malware Based on Genetic Algorithm

Abstract: This paper presents a novel solution for detecting rare and mutating malware programs and provides a strategy to address the scarcity of datasets for modeling these types of malware. To provide sufficient training data for malware behavioral modeling, genetic algorithms are used together with an optimization strategy that selectively creates generations of mutated elite malware samples. In our unique method, a sequence of system API calls is extracted using tracker filter drivers in a sandbox environment. The … Show more

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Cited by 30 publications
(19 citation statements)
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“…fMeasure values for different models Figure8. fMeasure values for different models Similar to precision and recall, this evaluation, and figure8evaluate that an improvement of 12.8% when compared with 2D CNN[8], 10.5% when compared with MMGA[11], and 9.4% when compared with RNN[19] in terms of fMeasure is obtained due to incorporation of Forensic Neural Network (FNN) with Augmented Convolutional Models (ACMs) for identification of different malware types. Results of the model in terms of localization can be observed from figure9(a), and 9 (b), wherein binary file is converted into 2D vectors, and malware affected regions are marked with brighter colour levels.…”
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confidence: 65%
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“…fMeasure values for different models Figure8. fMeasure values for different models Similar to precision and recall, this evaluation, and figure8evaluate that an improvement of 12.8% when compared with 2D CNN[8], 10.5% when compared with MMGA[11], and 9.4% when compared with RNN[19] in terms of fMeasure is obtained due to incorporation of Forensic Neural Network (FNN) with Augmented Convolutional Models (ACMs) for identification of different malware types. Results of the model in terms of localization can be observed from figure9(a), and 9 (b), wherein binary file is converted into 2D vectors, and malware affected regions are marked with brighter colour levels.…”
mentioning
confidence: 65%
“…Researchers can also integrate explainable AI to understand the source of malwares for different binary-specific use cases. Average Recall for Different Models 2D CNN [8] MMGA [11] RNN [19] ACM FNN…”
Section: Discussionmentioning
confidence: 99%
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