No Access

Malicious Software Detection based on URL-API Intensity Feature Selection Using Deep Spectral Neural Classification for Improving Host Security

B. Lavanya

Vels Institute of Science, Technology and Advanced Studies, Chennai 600117, India

E-mail Address: lavanya84tvm@gmail.com

Corresponding author.

Search for more papers by this author

and

C. Shanthi

Vels Institute of Science, Technology and Advanced Studies, Chennai 600117, India

E-mail Address: shanc08071978@gmail.com

Search for more papers by this author

https://doi.org/10.1142/S1469026823500025Cited by:1 (Source: Crossref)

Abstract

In recent years, the internet of services has been more responsive to access through the development of various application program interfaces (API). Accessing an HTTP uniform resource locator (URL) contains malicious software intended by the attacker to create security breaches through the use of APIs from various services on the internet. By default, the non-attentive URL downloads and installs malware in the background without the user’s knowledge. The host does not analyze the API-URL security certificate contract due to the feature access by the user. Therefore, the current Machine Learning (ML) techniques only check malware signatures and certificates rather than analyzing URL behaviour based on the impact of a URL accessed from the internet. To address this problem, we propose a novel intelligent malicious software based on URL-API intensity feature selection (IFS) and deep spectral neural classification (DSNC) for improving Host Security. Initially, the URL — successive certificate signing (SCS) of the user link accessibility is verified based on API download rate logs. This system identifies the best malware software. The Link Redirection Stability Rate (LRSR) is estimated based on the Redirection URL by accessing the direct link and redirect link. The domain transformation matrix (DTM) was created to create a pattern to access successive features. URL-API Intensity Feature Selection selects each estimated feature, and the selected features are based on soft-max logical activation with a recurrent neural network (RNN) optimized for deep learning. RNN is trained in the spectral domain for improving computation and efficiency. It predicts the class based on the risk of malicious weight to categorize class by reference. The proposed IFS-DSNC achieves accuracy of 95.6% than the other algorithms such as KNN, NB, CNN, LCS, GCRNC AGSCR. The experimental result shows that the proposed method provides better performance in finding malware software than the existing approaches, thereby improving the security against host breaching.

Keywords:

Remember to check out the Most Cited Articles!
Check out these titles in artificial intelligence!

References

1. QakBot banking malware is on the rise: number of attacked users grew 65% in 2021. Available from https://www.kaspersky.co.in/about/press-releases/2021_qakbot-banking-malware-is-on-the-rise-number-of-attacked-users-grew-65-in-2021. Google Scholar
2. M. Alaeiyan, S. Parsa and M. Conti, Analysis and classification of contextbased malware behavior, Comp. Commun. 136 (2019) 76–90. Crossref, Google Scholar
3. A. K. Dutta, Detecting phishing websites using machine learning technique, PLoS ONE 16(10) (2021) e0258361. Crossref, Google Scholar
4. M. Jang, J. Song and M. Kim, A study on the detection method for malicious URLs based on a number of search results matching the internet search engines combining the machine learning, J. Electr. Eng. Technol. 3 (2021). Google Scholar
5. C. D. Xuan and H. D. Nguyen, Malicious URL detection based on machine learning, Int. J. Adv. Com Sci. & Apps. (2020). Google Scholar
6. G. Dhivya, Privacy preserving over encrypted data and Urls detection, published in Int. J. Eng. Develop. Res. 8 (2020). Google Scholar
7. Ahmad Salah, A lightweight android malware classifier using novel feature selection methods, Symmetry 12 (2020) 858. Crossref, Google Scholar
8. B. Liu, X. Zeng and P. Dong, Malicious URL Detection System Based on LSTM and Attention Mechanism, published under licence by IOP Publishing LtdJournal of Physics: Conference Series, Volume 2037, 2021 International Conference on Artificial Intelligence and Information Technology (ICAIIT 2021) 27–28 March 2021, Beijing, China. Google Scholar
9. G. Wejinya and S. Bhatia, Machine learning for malicious URL detection, in M. Tuba, S. Akashe and A. Joshi (eds.), ICT Systems and Sustainability. Advances in Intelligent Systems and Computing, Springer, Singapore, 2021. Crossref, Google Scholar
10. A. Saleem Raja, R. Vinodini and A. Kavitha, Lexical features based malicious URL detection using machine learning techniques, Mater. Today: Proceedings 47 (2021) 163–166. Crossref, Google Scholar
11. R. Naresh, Ayon Gupta and SanghamitraGiri, Malicious URL detection system using combined sym and logistic regression model, Int. J. Adv. Res. Eng. Technol. 11(4) (2020) 63–73. Google Scholar
12. S. O. Sajedi and X. Liang, Intensity-based feature selection for near real-time damage diagnosis of building structures, The Evolving Metropolis, New York, NY, USA, 4–6 September 2019, published in The Evolving Metropolis, pp. 1005–1010. Google Scholar
13. T. Li, K. Gang and Y. Peng, Improving malicious URLs detection via feature engineering: Linear and non-linear space transformation methods, Inf. Syst. 91 101494. Crossref, Google Scholar
14. https://towardsdatascience.com/extracting-feature-vectors-from-url-strings-for-malicious-url-detection-cbafc24737a. Google Scholar
15. B. Rahbarinia, M. Balduzzi and R. Perdisci, Real-Time Detection of Malware. Available from https://documents.trendmicro.com/assets/wp/Real-Time-Detection-of-Malware-Downloads.pdf. Google Scholar
16. D. Margalit and J. Rabinoff, Interactive linear Algebra. Available from https://textbooks.math.gatech.edu/ila/matrix-transformations.html. Google Scholar
17. H. Yang, X. Zhang and F. Cheng, A novel wireless sensor networks malicious node detection method, J. Li, Z. Liu and H. Peng (eds.), Security and Privacy in New Computing Environments, SPNCE 2019, Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering, Vol. 284, Springer, Cham. Google Scholar
18. H. Yang, X. Zhang and F. Cheng, A novel algorithm for improving malicious node detection effect in wireless sensor networks, Mobile Netw. Appl. 26 (2021) 1564–1573. Crossref, Google Scholar
19. Z. Chen, Y. Liu, C. Chen, M. Lu and X. Zhang, Malicious URL detection based on improved multilayer recurrent convolutional neural network model, in Proc. Machine Learning: The Cybersecurity, Privacy, and Public Safety Opportunities and Challenges for Emerging Applications, Hindawi, 2021. Crossref, Google Scholar