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Simultaneously resettable zero knowledge protocol in Public Key model - Cybersecurity
cybersecurity.springeropen.comIn this paper, we construct a 6-round simultaneously resettable sound resettable $$(T, \epsilon )$$ ( T , ϵ ) -zero knowledge protocol for $$\mathsf {NP \cap coNP}$$ NP ∩ coNP in the Public Key model under standard assumptions, comparing with the 27-round simultaneously resettable zero knowledge protocol in the BPK model by Deng et al. in 2011, we have achieved a significant reduction in the round complexity. Our model assumes that both prover and verifier hold public keys, we call it the Public Key model. It is a variation of the traditional BPK model where only the verifier is assumed to hold public keys. In the original BPK model, under the sub-exponential hardness assumption of factoring, we construct a 2-round simultaneously resettable sound resettable $$(T,\epsilon )$$ ( T , ϵ ) -zero knowledge protocol for $$\textsf{NP}$$ NP .
This is above my ‘not keen on cryptographic maths’ head. Can someone dumb this down and explain its usefulness in plain terms? I attempted to read the overview but it was also like Sanskrit to me. Is this a big change for public key encryption or maybe a more efficient way of processing the math, or just an alternate method someone has found?