| Title |
A Novel Enhanced Cooperative Blackmailing Attack Detection System (Ebad) For Sa-Cba Mitigation |
| ID_Doc |
3346 |
| Authors |
Khurana S.; Varma P.; Ambhore V.B.; Mukuntharaj C.; Makhija H.; Josphin Selsia A. |
| Year |
2024 |
| Published |
IEEE International Conference on Recent Advances in Science and Engineering Technology, ICRASET 2024 |
| DOI |
http://dx.doi.org/10.1109/ICRASET63057.2024.10894769 |
| Abstract |
The integration of collaborative apps has the potential to provide smart city residents a plethora of real-time services. In order to fulfill the many needs of the smart town environment, all of these apps rely on network services that are cognizant of latency. Enhanced technical capabilities are necessary for current processes to function well in smart surroundings. These advancements in the current methods provide a multitude of opportunities for those who would break in. The most dangerous of these infringers is the identification-based assault since it may swiftly undermine the credibility of genuine network components. These intruders want to compromise the allocated unique IDs in order to gain access to the network. This means that present methods of protecting authoritarian regimes against such assaults are ineffective. To combat identity fraud in medical and smart city IoT settings, the Enhanced cooperative blackmailing attack detection (EBAD) method was created. Early identification of Sybil attacker nodes using EBAD may lessen the probability that they will try to undertake a cooperative blackmailing assault. In order to determine if network entities are hostile, the EBAD employs an assessment method based on edge-based allegations. The calculations needed to guarantee the network's reliability have mostly been offloaded to the edge. © 2024 IEEE. |
| Author Keywords |
and PDR; Cloud data center; EBAD; EBM; Internet of Things; SACBA; Sybil; TIL |
