Images are inherently sensitive signals that require privacy-preserving solutions when processed in an untrusted environment, but their efficient encrypted processing is particularly challenging due to their structure and size. This talk introduces a new cryptographic hard problem called m-RLWE (multivariate Ring Learning with Errors) extending RLWE. It gives support to lattice cryptosystems that allow for encrypted processing of multidimensional signals. We show an example cryptosystem and prove that it outperforms its RLWE counterpart in terms of security against basis-reduction attacks, efficiency and cipher expansion for encrypted image processing.
Alberto Pedrouzo Ulloa received the Telecommunication Engineer degree in 2013 and the master's degree in Signal Theory and Communications in 2014 from the University of Vigo (Spain). Since 2014, he has been working for the Signal Processing in Communications Group (GPSC) on topics related to Secure Signal Processing (SSP). He is currently a Ph.D. student in Information and Communications Technology at the same university. His main research interests are focused on Compressed Sampling (CS), Homomorphic Cryptography and Signal Processing in the Encrypted Domain (SPED).