Visible to the public Biblio

Filters: Author is Kumar, Vimal  [Clear All Filters]
2022-02-25
Phua, Thye Way, Patros, Panos, Kumar, Vimal.  2021.  Towards Embedding Data Provenance in Files. 2021 IEEE 11th Annual Computing and Communication Workshop and Conference (CCWC). :1319–1325.
Data provenance (keeping track of who did what, where, when and how) boasts of various attractive use cases for distributed systems, such as intrusion detection, forensic analysis and secure information dependability. This potential, however, can only be realized if provenance is accessible by its primary stakeholders: the end-users. Existing provenance systems are designed in a `all-or-nothing' fashion, making provenance inaccessible, difficult to extract and crucially, not controlled by its key stakeholders. To mitigate this, we propose that provenance be separated into system, data-specific and file-metadata provenance. Furthermore, we expand data-specific provenance as changes at a fine-grain level, or provenance-per-change, that is recorded alongside its source. We show that with the use of delta-encoding, provenance-per-change is viable, asserting our proposed architecture to be effectively realizable.
2017-09-19
Kumar, Vimal, Kumar, Satish, Gupta, Avadhesh Kumar.  2016.  Real-time Detection of Botnet Behavior in Cloud Using Domain Generation Algorithm. Proceedings of the International Conference on Advances in Information Communication Technology & Computing. :69:1–69:3.

In the last few years, the high acceptability of service computing delivered over the internet has exponentially created immense security challenges for the services providers. Cyber criminals are using advanced malware such as polymorphic botnets for participating in our everyday online activities and trying to access the desired information in terms of personal details, credit card numbers and banking credentials. Polymorphic botnet attack is one of the biggest attacks in the history of cybercrime and currently, millions of computers are infected by the botnet clients over the world. Botnet attack is an intelligent and highly coordinated distributed attack which consists of a large number of bots that generates big volumes of spamming e-mails and launching distributed denial of service (DDoS) attacks on the victim machines in a heterogeneous network environment. Therefore, it is necessary to detect the malicious bots and prevent their planned attacks in the cloud environment. A number of techniques have been developed for detecting the malicious bots in a network in the past literature. This paper recognize the ineffectiveness exhibited by the singnature based detection technique and networktraffic based detection such as NetFlow or traffic flow detection and Anomaly based detection. We proposed a real time malware detection methodology based on Domain Generation Algorithm. It increasesthe throughput in terms of early detection of malicious bots and high accuracy of identifying the suspicious behavior.