Cantor Function: Difference between revisions

Revision as of 04:16, 17 December 2020

if ${\mathcal {C}}$ is the Cantor set on [0,1], then the Cantor function c : [0,1] → [0,1] can be defined as

c(x)={\begin{cases}\sum _{n=1}^{\infty }{\frac {a_{n}}{2^{n}}},&x=\sum _{n=1}^{\infty }{\frac {2a_{n}}{3^{n}}}\in {\mathcal {C}}\ \mathrm {for} \ a_{n}\in \{0,1\};\\\sup _{y\leq x,\,y\in {\mathcal {C}}}c(y),&x\in [0,1]\setminus {\mathcal {C}}.\\\end{cases}}

The Cantor Function can be construct iteratively using homework construction.

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	==References==		==References==
			*{{cite journal \| last1=Dovgoshey \| first1=O. \| last2=Martio \| first2=O. \| last3=Ryazanov \| first3=V. \| last4=Vuorinen \| first4=M. \| title=The Cantor function \| journal=Expositiones Mathematicae \| publisher=Elsevier BV \| volume=24 \| issue=1 \| year=2006 \| issn=0723-0869 \| doi=10.1016/j.exmath.2005.05.002 \| pages=1–37 \|mr=2195181 \|url=http://users.utu.fi/vuorinen/REA12/107.pdf}}