Research Article
Year 2020,
, 638 - 647, 02.04.2020
Abstract
References
- [1] S. Ballet, R. Rolland, and S. Tutdere, Lower bounds on the number of rational points of Jacobians over finite fields and application to algebraic function fields in towers, Moscow Math. J. 15 (3), 1–9, 2015.
- [2] A. Bassa, P. Beelen, A. Garcia, and H. Stichtenoth, Towers of function fields over non-prime finite fields, Moscow Math. J. 15 (1), 1–29, 2015.
- [3] A. Beimel, Secret-sharing schemes: A survey, IWCC 2011: LNCS 6639 Springer Verlag: 11–46, 2011.
- [4] I. Cascudo, R. Cramer, and C. Xing, The torsion-limit for algebraic function fields and its application to arithmetic secret sharing, CRYPTO 2011: LNCS 6841 Springer Verlag: 685–705, 2011.
- [5] I. Cascudo, R. Cramer, and C. Xing, Bounds on the threshold gap in secret sharing and its applications, IEEE Trans. Inf. Theory 59 (9), 5600–5612, 2013.
- [6] I. Cascudo, R. Cramer, and C. Xing, Torsion limits and Riemann-Roch systems for function fields and applications, IEEE Trans. Inf. Theory 60 (7), 3871–3888, 2014.
- [7] D. Chaum, C. Crépeau, and I. Damgaard, Multi-Party unconditionally secure protocols, Proceedings of STOC 1988: ACM Press, New York, 11–19, 1988.
- [8] H. Chen and R. Cramer, Algebraic geometric secret sharing schemes and secure multiparty computations over small fields, CRYPTO 2006: LNCS 4117 Springer Verlag: 516–531, 2006.
- [9] R. Cramer, I. Damgaard, and U. Maurer, General secure multi-party computation from any linear secret sharing scheme, EUROCRYPT 2000: LNCS 1807 Springer Verlag: 316–334, 2000.
- [10] O. Farràs, C. Padró, C. Xing, and A. Yang, Natural generalizations of threshold secret sharing IEEE Trans. Inf. Theory 60 (3), 1652–1664, 2014.
- [11] A. Garcia and H. Stichtenoth, A tower of Artin-Schreier extensions of function fields attaining the Drinfeld-Vladut bound, Invent. Math. 121, 211–222, 1995.
- [12] F. Hess, H. Stichtenoth, and S. Tutdere, On invariants of towers of function fields over finite fields, J. Algebra Appl. 12 (4), 1250190, 2013.
- [13] T. Ignatenko and F.M.J. Willems, Biometric systems: Privacy and secrecy aspects, IEEE Trans. Inf. Forensics Secur. 4 (4), 956–973, 2009.
- [14] Y. Ishai, E. Kushilevitz, R. Ostrovsky, and A. Sahai, Zero-knowledge from secure multi-party computation, Proceedings of 39th STOC: San Diego, Ca., USA: 21–30, 2007. [15] Y. Ishai, M. Prabhakaran, and A. Sahai, Founding cryptography on oblivious transfer efficiently CRYPTO 2008: LNCS 157 Springer Verlag: 572–591, 2008.
- [16] M. Ito, A. Saito, and T. Nishizeki, Multiple assignment scheme for sharing secret, J. Cryptol. 6 (1), 15–20, 1993.
- [17] M. Ito, A. Saito, and T. Nishizeki, Secret sharing scheme realizing any access structure, Proc IEEE Globecom: 99–102, 1987.
- [18] E.D. Karnin, J.W. Greene, and M.E. Hellman, On secret sharing systems, IEEE Trans. Inf. Theory 29 (1), 35–41, 1983.
- [19] G. Lachaud and M. Martin-Deschamps, Nombre de points des jacobiennes sur un corps finis, Acta Arith. 56 (4), 329–340, 1990.
- [20] M. Naor and A. Wool, Access control and signatures via quorum secret sharing IEEE Trans. Parallel Distrib. Syst. 9(1), 909–922, 1998.
- [21] A. Shamir, How to share a secret, Comm. ACM. 22 (11), 612–613, 1979.
- [22] H. Stichtenoth, Algebraic function fields and codes, 2nd Ed. Springer-Verlag 254, 2009.
- [23] T. Tassa, Generalized oblivious transfer by secret sharing, Design Code Cryptogr. 58 (1), 11–21, 2011.
- [24] A. Weil, Vari´et´es ab´eliennes et courbes alg´ebriques, Hermann, Paris, 1948.
Year 2020,
, 638 - 647, 02.04.2020
Abstract
Cascudo, Cramer, and Xing [Torsion limits and Riemann-Roch systems for function fields and applications, IEEE Trans. Inf. Theory, 2014] gave a construction of arithmetic secret sharing schemes by using the torsion limits of algebraic function fields and Riemann-Roch systems. In this work, we give some new conditions for the construction of arithmetic secret sharing schemes. Furthermore, we give new bounds on the torsion limits of certain towers of function fields over finite fields.
References
- [1] S. Ballet, R. Rolland, and S. Tutdere, Lower bounds on the number of rational points of Jacobians over finite fields and application to algebraic function fields in towers, Moscow Math. J. 15 (3), 1–9, 2015.
- [2] A. Bassa, P. Beelen, A. Garcia, and H. Stichtenoth, Towers of function fields over non-prime finite fields, Moscow Math. J. 15 (1), 1–29, 2015.
- [3] A. Beimel, Secret-sharing schemes: A survey, IWCC 2011: LNCS 6639 Springer Verlag: 11–46, 2011.
- [4] I. Cascudo, R. Cramer, and C. Xing, The torsion-limit for algebraic function fields and its application to arithmetic secret sharing, CRYPTO 2011: LNCS 6841 Springer Verlag: 685–705, 2011.
- [5] I. Cascudo, R. Cramer, and C. Xing, Bounds on the threshold gap in secret sharing and its applications, IEEE Trans. Inf. Theory 59 (9), 5600–5612, 2013.
- [6] I. Cascudo, R. Cramer, and C. Xing, Torsion limits and Riemann-Roch systems for function fields and applications, IEEE Trans. Inf. Theory 60 (7), 3871–3888, 2014.
- [7] D. Chaum, C. Crépeau, and I. Damgaard, Multi-Party unconditionally secure protocols, Proceedings of STOC 1988: ACM Press, New York, 11–19, 1988.
- [8] H. Chen and R. Cramer, Algebraic geometric secret sharing schemes and secure multiparty computations over small fields, CRYPTO 2006: LNCS 4117 Springer Verlag: 516–531, 2006.
- [9] R. Cramer, I. Damgaard, and U. Maurer, General secure multi-party computation from any linear secret sharing scheme, EUROCRYPT 2000: LNCS 1807 Springer Verlag: 316–334, 2000.
- [10] O. Farràs, C. Padró, C. Xing, and A. Yang, Natural generalizations of threshold secret sharing IEEE Trans. Inf. Theory 60 (3), 1652–1664, 2014.
- [11] A. Garcia and H. Stichtenoth, A tower of Artin-Schreier extensions of function fields attaining the Drinfeld-Vladut bound, Invent. Math. 121, 211–222, 1995.
- [12] F. Hess, H. Stichtenoth, and S. Tutdere, On invariants of towers of function fields over finite fields, J. Algebra Appl. 12 (4), 1250190, 2013.
- [13] T. Ignatenko and F.M.J. Willems, Biometric systems: Privacy and secrecy aspects, IEEE Trans. Inf. Forensics Secur. 4 (4), 956–973, 2009.
- [14] Y. Ishai, E. Kushilevitz, R. Ostrovsky, and A. Sahai, Zero-knowledge from secure multi-party computation, Proceedings of 39th STOC: San Diego, Ca., USA: 21–30, 2007. [15] Y. Ishai, M. Prabhakaran, and A. Sahai, Founding cryptography on oblivious transfer efficiently CRYPTO 2008: LNCS 157 Springer Verlag: 572–591, 2008.
- [16] M. Ito, A. Saito, and T. Nishizeki, Multiple assignment scheme for sharing secret, J. Cryptol. 6 (1), 15–20, 1993.
- [17] M. Ito, A. Saito, and T. Nishizeki, Secret sharing scheme realizing any access structure, Proc IEEE Globecom: 99–102, 1987.
- [18] E.D. Karnin, J.W. Greene, and M.E. Hellman, On secret sharing systems, IEEE Trans. Inf. Theory 29 (1), 35–41, 1983.
- [19] G. Lachaud and M. Martin-Deschamps, Nombre de points des jacobiennes sur un corps finis, Acta Arith. 56 (4), 329–340, 1990.
- [20] M. Naor and A. Wool, Access control and signatures via quorum secret sharing IEEE Trans. Parallel Distrib. Syst. 9(1), 909–922, 1998.
- [21] A. Shamir, How to share a secret, Comm. ACM. 22 (11), 612–613, 1979.
- [22] H. Stichtenoth, Algebraic function fields and codes, 2nd Ed. Springer-Verlag 254, 2009.
- [23] T. Tassa, Generalized oblivious transfer by secret sharing, Design Code Cryptogr. 58 (1), 11–21, 2011.
- [24] A. Weil, Vari´et´es ab´eliennes et courbes alg´ebriques, Hermann, Paris, 1948.
There are 23 citations in total.
Details
| Primary Language | English |
|---|---|
| Subjects | Mathematical Sciences |
| Journal Section | Mathematics |
| Authors | |
| Publication Date | April 2, 2020 |
| Published in Issue | Year 2020 |