The Zero-Difference Properties of Functions and Their Applications (1811.08132v6)

Abstract: A function $f$ from an Abelian group $(A,+)$ to an Abelian group $(B,+)$ is $(n, m, S)$ zero-difference (ZD), if $S={\lambda_\alpha \mid \alpha \in A\setminus{0}}$ where $n=|A|$, $m=|f(A)|$ and $\lambda_\alpha=|{x \in A \mid f(x+\alpha)=f(x)}|$. A function is called zero-difference balanced (ZDB) if $S={\lambda}$ where $\lambda$ is a constant number. ZDB functions have many good applications. However it is point out that many known zero-difference balanced functions are already given in the language of partitioned difference family (PDF). The problem that whether zero-difference "not balanced" functions still have good applications as ZDB functions, is investigated in this paper. By using the change point technic, zero-difference functions with good applications are constructed from known ZDB function. Then optimal difference systems of sets (DSS) and optimal frequency-hopping sequences (FHS) are obtained with new parameters. Furthermore the sufficient and necessary conditions of these being optimal, are given.