Biblio

Filters: Author is Khan, Riaz Ullah  [Clear All Filters]
2020-05-11
Khan, Riaz Ullah, Zhang, Xiaosong, Alazab, Mamoun, Kumar, Rajesh.  2019.  An Improved Convolutional Neural Network Model for Intrusion Detection in Networks. 2019 Cybersecurity and Cyberforensics Conference (CCC). :74–77.

Network intrusion detection is an important component of network security. Currently, the popular detection technology used the traditional machine learning algorithms to train the intrusion samples, so as to obtain the intrusion detection model. However, these algorithms have the disadvantage of low detection rate. Deep learning is more advanced technology that automatically extracts features from samples. In view of the fact that the accuracy of intrusion detection is not high in traditional machine learning technology, this paper proposes a network intrusion detection model based on convolutional neural network algorithm. The model can automatically extract the effective features of intrusion samples, so that the intrusion samples can be accurately classified. Experimental results on KDD99 datasets show that the proposed model can greatly improve the accuracy of intrusion detection.

2020-04-06
Khan, Riaz Ullah, Kumar, Rajesh, Alazab, Mamoun, Zhang, Xiaosong.  2019.  A Hybrid Technique To Detect Botnets, Based on P2P Traffic Similarity. 2019 Cybersecurity and Cyberforensics Conference (CCC). :136–142.
The botnet has been one of the most common threats to the network security since it exploits multiple malicious codes like worm, Trojans, Rootkit, etc. These botnets are used to perform the attacks, send phishing links, and/or provide malicious services. It is difficult to detect Peer-to-peer (P2P) botnets as compare to IRC (Internet Relay Chat), HTTP (HyperText Transfer Protocol) and other types of botnets because of having typical features of the centralization and distribution. To solve these problems, we propose an effective two-stage traffic classification method to detect P2P botnet traffic based on both non-P2P traffic filtering mechanism and machine learning techniques on conversation features. At the first stage, we filter non-P2P packages to reduce the amount of network traffic through well-known ports, DNS query, and flow counting. At the second stage, we extract conversation features based on data flow features and flow similarity. We detected P2P botnets successfully, by using Machine Learning Classifiers. Experimental evaluations show that our two-stage detection method has a higher accuracy than traditional P2P botnet detection methods.
2018-08-06
Kumar, Rajesh, Xiaosong, Zhang, Khan, Riaz Ullah, Kumar, Jay, Ahad, Ijaz.  2018.  Effective and Explainable Detection of Android Malware Based on Machine Learning Algorithms. Proceedings of the 2018 International Conference on Computing and Artificial Intelligence. :35–40.
2019-02-08
Kumar, Rajesh, Xiaosong, Zhang, Khan, Riaz Ullah, Ahad, Ijaz, Kumar, Jay.  2018.  Malicious Code Detection Based on Image Processing Using Deep Learning. Proceedings of the 2018 International Conference on Computing and Artificial Intelligence. :81-85.

In this study, we have used the Image Similarity technique to detect the unknown or new type of malware using CNN ap- proach. CNN was investigated and tested with three types of datasets i.e. one from Vision Research Lab, which contains 9458 gray-scale images that have been extracted from the same number of malware samples that come from 25 differ- ent malware families, and second was benign dataset which contained 3000 different kinds of benign software. Benign dataset and dataset vision research lab were initially exe- cutable files which were converted in to binary code and then converted in to image files. We obtained a testing ac- curacy of 98% on Vision Research dataset.