Referred Journal Publications


[1] S. Li, F. Gao, G. Ge, and S. Zhang. Deterministic construction of compressed sensing matrices via algebraic curves. IEEE Transactions on Information Theory, 2012.


[2] S. Li and G. Ge. Deterministic sensing matrices arising from near orthogonal systems. IEEE Transactions on Information Theory, 2014.


[3] S. Li and G. Ge. Deterministic construction of sparse sensing matrices via finite geometry. IEEE Transactions on Signal Processing, 2014.



[4] S. Li, S. Hu, T. Feng, and G. Ge. The weight distribution of a class of cyclic codes related to Hermitian forms graphs. IEEE Transactions on Information Theory, 2013.


[5] T. Zhang, S. Li, T. Feng, and G. Ge. Some new results on the cross correlation of m-sequences. IEEE Transactions on Information Theory, 2014.


[6] S. Li, T. Feng, and G. Ge. On the weight distribution of cyclic codes with Niho exponents. IEEE Transactions on Information Theory, 2014.


[7] M. Xiong, S. Li, and G. Ge. The weight hierarchy of some reducible cyclic codes. IEEE Transactions on Information Theory, 2016.


[8] S. Li. The weight hierarchy of a family of cyclic codes with arbitrary number of nonzeroes. Finite Fields and Their Applications, 2017.


[9] S. Li. On the weight distribution of second order Reed-Muller codes and their relatives. Designs, Codes and Cryptography, 2019.


[10] S. Li, M. Xiong, and H. Yan. On a question of cyclic codes with generalized Niho-type nonzeroes.  IEEE Transactions on Information Theory, 2026.




[11] C. Li, C. Ding, and S. Li. LCD cyclic codes over finite fields. IEEE Transactions on Information Theory, 2017.


[12] S. Li, C. Li, C. Ding, and H. Liu. Two families of LCD BCH Codes. IEEE Transactions on Information Theory, 2017.


[13] S. Li, C. Ding, M. Xiong, and G. Ge. Narrow-sense BCH codes over GF(q) with length $n=\frac{q^m-1}{q-1}$ . IEEE Transactions on Information Theory, 2017.


[14] S. Li. The minimum distance of some narrow-sense primitive BCH codes. SIAM Journal on Discrete Mathematics, 2017.



[15] G. Ge, S. Li, and H. Wei. A new construction of group divisible designs with nonuniform group type. Journal of Combinatorial Designs, 2016.


[16] J. Na, J. Jedwab, and S. Li. A group-based structure for perfect sequence covering arrays. Designs, Codes and Cryptography, 2023.


[17] J. Jedwab, S. Li, and S. Simon. Constructions and restrictions for balanced splittable Hadamard matrices. Electronic Journal of Combinatorics, 2023.

  


[18] T. Feng, S. Hu, S. Li, and G. Ge. Difference sets with few character values. Designs, Codes and Cryptography, 2014.


[19] S. Li, H. Wei, and G. Ge. Generic constructions for partitioned difference families with applications: A unified combinatorial approach. Designs, Codes and Cryptography, 2017.


[20] J. Jedwab, S. Li, and S. Simon. Linking systems of difference sets. Journal of Combinatorial Designs, 2019.


[21] J. Jedwab and S. Li. Construction and nonexistence of strong external difference families. Journal of Algebraic Combinatorics, 2019.


[22] K. H. Leung, S. Li, and T. F. Prabowo. Nonexistence of strong external difference families in abelian groups of order being product of at most three primes, Journal of Combinatorial Theory, Series A, 2021.


[23] J. Jedwab and S. Li. Packings of partial difference sets. Combinatorial Theory, 2021.



[24] S. Li, A. Pott, and R. Schuller. Formal duality in finite abelian groups. Journal of Combinatorial Theory, Series A, 2019.


[25] S. Li and A. Pott. Constructions of primitive formally dual pairs having subsets with unequal sizes. Journal of Combinatorial Designs, 2019.


[26] S. Li and A. Pott. A direct construction of primitive formally dual pairs having subsets with unequal sizes. Cryptography and Communication, Invited Paper for Special Issue on Sequences and Their Applications II, 2020.



[27] S. Li and A. Pott. Intersection distribution, non-hitting index and Kakeya sets in affine planes. Finite Fields and Their Applications, 2020.


[28] G. Kyureghyan, S. Li, and A. Pott. On the intersection distribution of degree three polynomials and related topics. Electronic Journal of Combinatorics, 2021.


[29] S. Li and M. Xiong. Intersection distribution of degree four polynomials over finite fields. Designs, Codes and Cryptography, 2025.




[30] S. Hu, S. Li, T. Zhang, T. Feng, and G. Ge. New pseudo-planar binomials in characteristic two and related schemes. Designs, Codes and Cryptography, 2015.


[31] S. Li, W. Meidl, A. Polujan, A. Pott, C. Riera, and P. Stanica. Vanishing flats: a combinatorial viewpoint on the planarity of functions and their application. IEEE Transactions on Information Theory, 2020.


[32] K. H. Leung, S. Li, and S. Mao. Nonexistence results of generalized bent functions from $Z_2^n$ to $Z_m$. Journal of Combinatorial Theory, Series A, 2023.



[33] S. Li, M. Xiong, and G. Ge. Pseudo-cyclic codes and the construction of quantum MDS codes. IEEE Transactions on Information Theory, 2016.


[34] S. Li and G. Ge. Constructions of maximum distance separable symbol-pair codes using cyclic and constacyclic codes. Designs, Codes and Cryptography, 2017.


Referred Publications in Conference Proceedings

[35] J. Jedwab and S. Li. Group rings and character sums: tricks of the trade. New Advances in Designs, Codes and Cryptography, Fields Institute Communications, vol 86. 2024.


Submitted


[36] S. Li, J. A. Davis, S. Huczynska, L. Johnson, and J. Polhill. Strongly Regular Graphs with Generalized Denniston and Dual Generalized Denniston Parameters. Submitted.


[37] D. L. Kreher, S. Li, and D. R. Stinson. $lambda$-fold near-factorization of groups. Submitted.


[38] S. Li and C. H. Yip. Generalized additive bases and difference bases for Cartesian product of finite abelian groups. Submitted.


Preprint


[39] S. Li and K. Momihara. Cyclotomic construction of $lambda$-fold near-factorizations of cyclic groups.