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Computation of complexity measures of morphologically significant zones decomposed from binary fractal sets via multiscale convexity analysis

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  • Lim, Sin Liang
  • Koo, Voon Chet
  • Daya Sagar, B.S.

Abstract

Multiscale convexity analysis of certain fractal binary objects—like 8-segment Koch quadric, Koch triadic, and random Koch quadric and triadic islands—is performed via (i) morphologic openings with respect to recursively changing the size of a template, and (ii) construction of convex hulls through half-plane closings. Based on scale vs convexity measure relationship, transition levels between the morphologic regimes are determined as crossover scales. These crossover scales are taken as the basis to segment binary fractal objects into various morphologically prominent zones. Each segmented zone is characterized through normalized morphologic complexity measures. Despite the fact that there is no notably significant relationship between the zone-wise complexity measures and fractal dimensions computed by conventional box counting method, fractal objects—whether they are generated deterministically or by introducing randomness—possess morphologically significant sub-zones with varied degrees of spatial complexities. Classification of realistic fractal sets and/or fields according to sub-zones possessing varied degrees of spatial complexities provides insight to explore links with the physical processes involved in the formation of fractal-like phenomena.

Suggested Citation

  • Lim, Sin Liang & Koo, Voon Chet & Daya Sagar, B.S., 2009. "Computation of complexity measures of morphologically significant zones decomposed from binary fractal sets via multiscale convexity analysis," Chaos, Solitons & Fractals, Elsevier, vol. 41(3), pages 1253-1262.
  • Handle: RePEc:eee:chsofr:v:41:y:2009:i:3:p:1253-1262
    DOI: 10.1016/j.chaos.2008.05.006
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