中文

Graph Structure of Chebyshev Permutation Polynomials over Binary and Ternary Adic Rings

密码学与安全 2026-05-22 v1

摘要

Understanding the functional graph of a nonlinear map over a finite domain is crucial for analyzing its dynamical complexity and potential applications in cryptography and pseudorandom generation. In this paper, we investigate the graph structure of Chebyshev permutation polynomials over the ring Z2k13k2\mathbb{Z}_{2^{k_1}3^{k_2}}, where k1k_1 and k2k_2 are positive integers and 0{k1,k2}0\in\{k_1, k_2\}. Each element of the ring is regarded as a vertex, and the mapping relation defined by the polynomial corresponds to a directed edge. Building on new properties of Chebyshev polynomials modulo powers of 22 and 33, we provide an explicit characterization of path lengths and cycle structures in the functional graph. We show that, despite the complexities introduced by the binary and ternary components, the graph exhibits strong regularities, including a constant number of cycles of a given length and predictable branching patterns as k1k_1 and k2k_2 increase. Our results extend previous studies over prime-power rings, offering insights into the emergence of complexity in digital nonlinear maps and supporting the security analysis of their cryptographic applications.

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引用

@article{arxiv.2605.21819,
  title  = {Graph Structure of Chebyshev Permutation Polynomials over Binary and Ternary Adic Rings},
  author = {Xiaoxiong Lu and Yuling Dai and Chengqing Li},
  journal= {arXiv preprint arXiv:2605.21819},
  year   = {2026}
}