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This article is cited in 1 scientific paper (total in 1 paper)
Mathematics
On global extrema of power Takagi functions
O. E. Galkin, S. Yu. Galkina, A. A. Tronov National Research University – Higher School of Economics in Nizhny Novgorod
Abstract:
By construction, power Takagi functions $S_p$ are similar to Takagi's continuous nowhere differentiable function described in 1903. These real-valued functions $S_p(x)$ have one real parameter $p > 0$.
They are defined on the real axis $\mathbb R$ by the series $S_p(x)=\sum_{n=0}^\infty (S_0(2^nx)/2^n)^p$, where $S_0(x)$ is the distance from real number $x$ to the nearest integer number. We show that for every $p > 0$, the functions $S_p$ are everywhere continuous, but nowhere differentiable on $\mathbb R$.
Next, we derive functional equations for Takagi power functions. With these, it is possible, in particular, to calculate the values $S_p(x)$ at rational points $x$.
In addition, for all values of the parameter $p$ from the interval $(0;1)$, we find the global extrema of the functions $S_p$, as well as the points where they are reached.
It turns out that the global maximum of $S_p$ equals to $2^p/(3^p(2^p-1))$ and is reached only at points $q+1/3$ and $q+2/3$, where $q$ is an arbitrary integer. The global minimum of the functions $S_p$ equals to $0$ and is reached only at integer points. Using the results on global extremes, we obtain two-sided estimates for the functions $S_p$ and find the points at which these estimates are reached.
Keywords:
power Takagi function, continuity, nowhere differentiability, functional equations, global extrema
Citation:
O. E. Galkin, S. Yu. Galkina, A. A. Tronov, “On global extrema of power Takagi functions”, Zhurnal SVMO, 25:2 (2023), 22–36
Linking options:
https://www.mathnet.ru/eng/svmo853 https://www.mathnet.ru/eng/svmo/v25/i2/p22
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