Abstract
The combination of Huffman Code with some Cryptographic Algorithms such as symmetric encryption algorithms will guarantee multi-level security. Huffman code can access both the code wordlist with the encoded bits in order to decode the message. In this way, improper error correction algorithms with encoded bits can be damaged resulting in total loss of information. However, code wordlist and code bit sent to the receiver require a high-level of transmission time. There is a need to provide countermeasures techniques to secure and fix the damaged encoded bit. The challenge, therefore, is to protect the original wordlist from intrusion without damaging the existing code bit. Data of Personally Identifiable Information must not be compromised which requires data encryption. The focus of the study is to mitigate against intrusion in the levels of communication transaction between the card and the reader. In this research, a Mifare classic 1k and Radio Frequency Identification (RFID) were used during the simulation because of the vulnerability status of the card. The Advanced Encryption Standard (AES) of varying bytes with a number of Unique Characters was simulated.
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Adeniji, O.D., Akinola, O.E., Adesina, A.O., Afolabi, O. (2022). Text Encryption with Advanced Encryption Standard (AES) for Near Field Communication (NFC) Using Huffman Compression. In: Florez, H., Gomez, H. (eds) Applied Informatics. ICAI 2022. Communications in Computer and Information Science, vol 1643. Springer, Cham. https://doi.org/10.1007/978-3-031-19647-8_12
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