@article{8624703b7f984ea99ce59f64a196e05e, title = "Asymptotically Optimal Algorithms for Running Max and Min Filters on Random Inputs", abstract = "Given a d-dimensional array of size nd and an integer p, the running max (or min) filter is the set of maximum (or minimum) elements within a d-dimensional sliding window of edge length p inside the array. This problem is useful in many signal processing applications such as pattern analysis, adaptive signal processing, and morphological analysis. The current best algorithm for computing the one-dimensional (1-D) max (or min) filter, due to the work of [H. Yuan and M. J. Atallah, {"}Running max/min filters using 1+o(1) comparisons per sample,{"} IEEE Trans. Pattern Anal. Mach. Intell., vol. 33, no. 12, pp. 2544-2548, Dec. 2011], uses 1 + o(1) comparisons per sample in the worst case. As a direct consequence, the d-dimensional max (or min) filter (max and min filters, respectively) can be computed in d + o(1) (2d + o(1), respectively) comparisons per sample. In this paper, we first present an algorithm for computing d -dimensional max and min filters simultaneously on i.i.d. inputs that uses 1.5 + o(1) expected comparisons per sample. This is the first algorithm (on i.i.d. inputs) that gets rid of the dependence on d in the dominating term, with respect to n and p, of the (expected) number of comparisons needed. It is also asymptotically optimal (when d is a fixed constant as n → ∞ and p → ∞). We also consider the dynamic version of the problem of d -dimensional max and min filters simultaneously on i.i.d. inputs where we want to maintain the filters after changes in the input array. We design a linear-sized data structure that stores precomputed information for efficient update using O (pd-1 log2 p) expected comparisons per update.", keywords = "comparisons per sample, dilation, erosion, Mathematical morphology, running filters", author = "Minming Li and Hongyu Liang and Shengxin Liu and Poon, {Chung Keung} and Hao Yuan", year = "2018", month = jul, day = "1", doi = "10.1109/TSP.2018.2830309", language = "English", volume = "66", pages = "3421--3435", journal = "IEEE Transactions on Signal Processing", issn = "1053-587X", publisher = "IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC", number = "13", }