TY - JOUR AU - Dr. G. Narsimha, B. Sudhakar, Dr. V. B. Narsimha, PY - 2019/12/26 Y2 - 2024/03/29 TI - A Contextual Deep Clustering Based Intrusion Detection Method for Cloud JF - International Journal of Advanced Science and Technology JA - IJAST VL - 28 IS - 18 SE - Articles DO - UR - http://sersc.org/journals/index.php/IJAST/article/view/2376 SP - 349 – 359 AB - With the growth in the recent internet-based services and the information generated by these services have attracted many attackers to intrude in the services, infrastructure and the information generated by the services. The services many of the times must make itself visible for opening service features to the end user. The intruders take the advantages of these situations for making the attacks on the internet services. Many of the parallel research attempts have aimed to detect the intrusions by automating the process of detections basedon the characteristics of the attacks. Although interruption location frameworks screen systems for conceivably malevolent movement, they are likewise arranged to bogus alerts. Subsequently, associations need to tweak their IDS items when they initially introduce them. It implies appropriately setting up the interruption discovery frameworks to perceive what ordinary traffic on the system resembles when contrasted with vindictive action. Nevertheless, the characteristics-based approaches apply a primary technique called classification for the detection of the attacks or intrusions. Most of the instances, it is been realized that the detection mechanism ignores some of the events as the parametric or characteristics-based detections cannot interpret the contexts of the values for these parameters at some events. This leads to the vulnerability of the security methods deployed to detect and prevent intrusions by attacks. The problem can be resolved using clustering the complete attack situations and identifying the overlaps between the attack events. Nonetheless, the clustering methods can be tricky as a smaller number of clusters can again stimulate the older problem of contextual insensitivity and the greater number of clusters can identify regular accesses also as attacks or intrusions. Henceforth, this work proposes a contextual deep clustering method using the deep analysis of the Euclidian distance measures for finding the accurate number of clusters for better intrusion detection. As an outcome of the research this work demonstrates nearly 90% accuracy in the detection for the overall system and for selected clusters it demonstrates nearly 100% accuracy. ER -