scientific article; zbMATH DE number 7450723
zbMath1490.46002MaRDI QIDQ5018932
Publication date: 27 December 2021
Full work available at URL: http://thaijmath.in.cmu.ac.th/index.php/thaijmath/article/view/2044
Title: zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Metric spaces, metrizability (54E35) Continuity and related questions (modulus of continuity, semicontinuity, discontinuities, etc.) for real functions in one variable (26A15) Other ``topological linear spaces (convergence spaces, ranked spaces, spaces with a metric taking values in an ordered structure more general than (mathbb{R}), etc.) (46A19) Ideal and statistical convergence (40A35) Summability methods using statistical convergence (40G15)
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Ideal quasi-Cauchy sequences
- \(\delta \)-quasi-Cauchy sequences
- On \(G\)-continuity
- Statistical quasi-Cauchy sequences
- Cone metric spaces and fixed point theorems of contractive mappings
- Slowly oscillating continuity
- A condition under which slow oscillation of a sequence follows from Cesàro summability of its generator sequence
- A common fixed point theorem in abstract spaces
- Sequential definitions of continuity for real functions.
- Generalized statistical convergence and convergence free spaces
- \(\mathcal I\)-convergence
- Tauberian conditions, under which statistical convergence follows from statistical summability \((C,1)\)
- Alternative proofs of some classical type Tauberian theorems for the Cesàro summability of integrals
- Fixed point in topological vector space-valued cone metric spaces
- An extended Tauberian theorem for the \((C,1)\) summability method
- Ideal convergence in locally solid Riesz spaces
- Quasi-Cauchy Sequences
- I-Monotonic and I-Convergent Sequences
- Some Tauberian conditions for Cesàro summability method
- GENERALIZED CONE METRIC SPACES
- ON STATISTICAL CONVERGENCE
- Ordinary convergence follows from statistical summability (C,1) in the case of slowly decreasing or oscillating sequences
- Slowly oscillating continuity in abstract metric spaces
- Newton’s Method for Convex Operators in Partially Ordered Spaces
- Sur la convergence statistique
This page was built for publication:
