CM2021:P000084

第十二届中国数学会计算机数学大会 (CM2021)

2021年 6月4日 ~ 7日

P000084

Ramp schemes based on CRT for polynomial ring over finite field

*JIAN Ding (福建师范大学)
Changlu Lin (福建师范大学)
Huaxiong Wang (Nanyang Technological University, Singapore)


Secret sharing schemes play fundamental roles in many cryptographic applications, and hence they have been constructed by using various mathematical tools. As we all know, the most famous Shamir scheme and Asmuth-Bloom scheme are based on polynomials over finite field and Chinese Reminder Theorem (CRT) for integers, respectively. Compared with Shamir scheme, Asmuth-Bloom scheme has a lower information rate, but it has a lower computational complexity in its secret reconstruction phase. In ASIACRYPT 2018, Ning et al. constructed a perfect (r,n)-threshold scheme based on CRT for polynomial ring over finite field, and the corresponding information rate is one which is the greatest information rate for a (r,n)-threshold scheme. However, perfect security is too much security for many practical purposes. In this work, we generalize the scheme of Ning et al. to a (t,r,n)-ramp scheme based on CRT for polynomial ring over finite field,  which has the greatest information rate (r-t) for a (t,r,n)-ramp scheme. Moreover, for any give $r_1<r_2\leq n$, we will use our ramp scheme to construct a $(r_1,n)$-threshold scheme that is threshold changeable to (r',n)-threshold scheme for all $r'\in \{r_1+1,\ldots,r_2\}$ in the full version of this paper. We claim that our threshold changeable secret sharing (TCSS) scheme has a higher information rate than other existing TCSS schemes of this type.

Secret sharing schemes play fundamental roles in many cryptographic applications, and hence they have been constructed by using various mathematical tools. As we all know, the most famous Shamir scheme and Asmuth-Bloom scheme are based on polynomials over finite field and Chinese Reminder Theorem (CRT) for integers, respectively. Compared with Shamir scheme, Asmuth-Bloom scheme has a lower information rate, but it has a lower computational complexity in its secret reconstruction phase. In ASIACRYPT 2018, Ning et al. constructed a perfect (r,n)-threshold scheme based on CRT for polynomial ring over finite field, and the corresponding information rate is one which is the greatest information rate for a (r,n)-threshold scheme. However, perfect security is too much security for many practical purposes. In this work, we generalize the scheme of Ning et al. to a (t,r,n)-ramp scheme based on CRT for polynomial ring over finite field, which has the greatest information rate (r-t) for a (t,r,n)-ramp scheme. Moreover, for any give $r_1

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