The Quantization Dimension of Self–Similar Probabilities

When the mean square distortion measure is used, asymptotically optimal quantizers of uniform bivariate random vectors correspond to the centers of regular hexagons (Newman, 1982), and if the random vector is non-uniform, asymptotically optimal quantizers are the centers of piecewise regular hexagon

Let K and µ be the self-similar set and the self-similar measure associated with an iterated function system with probabilities (Si, pi)i=1,...,N satisfying the Open Set Condition. Let Σ = {1, . . . , N} N denote the full shift space and let π : Σ → K denote the natural projection. The (symbolic) lo

Given a n = n square divided into n smaller squares i.e., a n = n . chessboard , how many k = k squares does it contain, where 1 The answer itself turns out to be a square, namely, n q 1 y k . Thus, the total number of squares contained in the n = n square is the sum of the squares: 1 2 q 2 2 q иии

We define the notion of quasi self-similar measures and show that for such measures their generalised Hausdorff and packing measures are positive and finite at the critical exponent. In practice this allows easy calculation of their dimension functions. We then show that a coarse form of the multifr

## Abstract We address the open problem of existence of singularities for the complex Ginzburg‐Landau equation. Using a combination of rigorous results and numerical computations, we describe a countable family of self‐similar singularities. Our analysis includes the supercritical nonlinear Schrödi

## Abstract In this article, the influences of initial pulse and gain fiber parameters on the pulse's self‐similar evolution are studied by numerical simulation. We propose and demonstrate that dispersion length is the determining factor of pulse's self‐similar evolution. For a given input pulse, i