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- Title
Slicing Based Multi-Layer Encryption Model to Enhance Security in Edge Computing.
- Authors
Sharma, Raghav; Lohan, Vinit Kumar; Goyal, Deepak; Gupta, Pankaj; Bansal, Bijender
- Abstract
In traditional applications, data security was limited to the application layer. In the proposed study, the security of the package is ensured. Due to the limitations of current security techniques the need of a new security system arose. Decryption should be less likely without authentication. Decentralized security should be established to prevent attacks from different networks. The proposed encryption standard is said to improve multilayer protection. This method slices the content into two parts to provide a reliable transmission mechanism. The system is able to prevent hackers from diffusing the security system. Security was needed in a cloud and edge environment to prevent attackers. The two fish algorithm was developed for increased security and reliability of data transmission over different networks. It has resisted hacker or cracker attacks thanks to its security mechanism. The proposed article proposes a research project on the safety of edge transmissions using slicing. Decentralized security is to be created to prevent attackers from attacking from different networks, and adding layered security will improve strong encryption standards. Numerous studies have been conducted in the field of computer security edge generators. Some of these have already been discussed. In order to provide a reliable transmission method, the proposed study slices the data into two elements which are also encrypted at multiple levels. By transmitting data over the network using multilayer encryption has evolved and made the transmission more secure and reliable. This technique made the security system resistant to hacker or cracker attacks.
- Subjects
DATA encryption; EDGE computing; DATA transmission systems; DATA security; COMPUTER hackers
- Publication
International Journal of Computer Science & Management Studies, 2022, Vol 43, p1
- ISSN
2231-5268
- Publication type
Article