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Lossless Data Hiding in LWE-Encrypted Domains Based on Key-Switching

Lossless Data Hiding in LWE-Encrypted Domains Based on Key-Switching

Ting-ting Su, Yan Ke, Yi Ding, Jia Liu
Copyright: © 2021 |Volume: 13 |Issue: 4 |Pages: 19
ISSN: 1941-6210|EISSN: 1941-6229|EISBN13: 9781799860372|DOI: 10.4018/IJDCF.20210701.oa6
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MLA

Su, Ting-ting, et al. "Lossless Data Hiding in LWE-Encrypted Domains Based on Key-Switching." IJDCF vol.13, no.4 2021: pp.71-89. http://doi.org/10.4018/IJDCF.20210701.oa6

APA

Su, T., Ke, Y., Ding, Y., & Liu, J. (2021). Lossless Data Hiding in LWE-Encrypted Domains Based on Key-Switching. International Journal of Digital Crime and Forensics (IJDCF), 13(4), 71-89. http://doi.org/10.4018/IJDCF.20210701.oa6

Chicago

Su, Ting-ting, et al. "Lossless Data Hiding in LWE-Encrypted Domains Based on Key-Switching," International Journal of Digital Crime and Forensics (IJDCF) 13, no.4: 71-89. http://doi.org/10.4018/IJDCF.20210701.oa6

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Abstract

This paper proposes a lossless data hiding scheme in learning with errors (LWE)-encrypted domain based on key-switching technique. Lossless data hiding and extraction could be realized by a third party without knowing the private key for decryption. Key-switching-based least-significant-bit (KSLSB) data hiding method has been designed during the lossless data hiding process. The owner of the plaintext first encrypts the plaintext by using LWE encryption and uploads ciphertext to a (trusted or untrusted) third server. Then the server performs KSLSB to obtain a marked ciphertext. To enable the third party to manage ciphertext flexibly and keep the plaintext secret, the embedded data can be extracted from the marked ciphertext without using the private key of LWE encryption in the proposed scheme. Experimental results demonstrate that data hiding would not compromise the security of LWE encryption, and the embedding rate is 1 bit per bit of plaintext without introducing any loss into the directly decrypted result.