Abstract In dynamic multi-key Fully Homomorphic Encryption (MFHE) scheme, homomorphic operations on ciphertexts encrypted under different keys are allowed. Moreover, the resulting ciphertext can be further computed with ciphertexts under other keys. In 2016, Peikert and Shiehian presented a dynamic MFHE scheme that relies on using a Common Reference String (CRS) and circular security assumptions. Subsequently, various variants of dynamic MFHE schemes were proposed based on this scheme, but these variant schemes still rely on a CRS and circular security assumption. Therefore, constructing a MFHE GSW scheme relies solely on the LWE assumption and does not require a CRS remains a valuable challenge. This paper introduces a new dynamic MFHE scheme. Compared to existing solutions, our scheme does not require the circular security assumption and depends solely on the LWE assumption, which theoretically provides an enhanced level of security. Additionally, it eliminates the need for a shared CRS but instead replaces the CRS with each party independently generate random matrices. This decentralized approach enhances the ability of users to generate keys independently. The size of ciphertexts and public keys in our scheme is comparable to other existing solutions, thus maintaining efficiency in both computation and ciphertext extension.
Wang et al. (Wed,) studied this question.