The Near-Ring of Lipschitz Functions on a Metric Space

International Journal of Mathematics and Mathematical Sciences ◽

10.1155/2010/284875 ◽

2010 ◽

Vol 2010 ◽

pp. 1-14

Author(s):

Mark Farag ◽

Brink van der Merwe

Keyword(s):

Metric Space ◽

Metric Spaces ◽

Abelian Groups ◽

Lipschitz Functions ◽

Ideal Structure ◽

Composition Of Functions ◽

The Ideal

This paper treats near-rings of zero-preserving Lipschitz functions on metric spaces that are also abelian groups, using pointwise addition of functions as addition and composition of functions as multiplication. We identify a condition on the metric ensuring that the set of all such Lipschitz functions is a near-ring, and we investigate the complications that arise from the lack of left distributivity in the resulting right near-ring. We study the behavior of the set of invertible Lipschitz functions, and we initiate an investigation into the ideal structure of normed near-rings of Lipschitz functions. Examples are given to illustrate the results and to demonstrate the limits of the theory.

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The ideal of Lipschitz classical p-compact operators and its injective hull

Moroccan Journal of Pure and Applied Analysis ◽

10.2478/mjpaa-2022-0003 ◽

2021 ◽

Vol 0 (0) ◽

Author(s):

Toufik Tiaiba ◽

Dahmane Achour

Keyword(s):

Banach Space ◽

Compact Operator ◽

Metric Space ◽

Metric Spaces ◽

Compact Operators ◽

Operator Ideal ◽

Linear Case ◽

Injective Hull ◽

Nuclear Operators ◽

The Ideal

Abstract We introduce and investigate the injective hull of the strongly Lipschitz classical p-compact operator ideal defined between a pointed metric space and a Banach space. As an application we extend some characterizations of the injective hull of the strongly Lipschitz classical p-compact from the linear case to the Lipschitz case. Also, we introduce the ideal of Lipschitz unconditionally quasi p-nuclear operators between pointed metric spaces and show that it coincides with the Lipschitz injective hull of the ideal of Lipschitz classical p-compact operators.

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Coarse compactifications and controlled products

Journal of Topology and Analysis ◽

10.1142/s1793525321500102 ◽

2020 ◽

pp. 1-26

Author(s):

Tomohiro Fukaya ◽

Shin-ichi Oguni ◽

Takamitsu Yamauchi

Keyword(s):

Metric Space ◽

Metric Spaces ◽

Equivalence Classes ◽

Ideal Boundary ◽

Bijective Correspondence ◽

Gromov Boundary ◽

The Ideal

We introduce the notion of controlled products on metric spaces as a generalization of Gromov products, and construct boundaries by using controlled products, which we call the Gromov boundaries. It is shown that the Gromov boundary with respect to a controlled product on a proper metric space is the ideal boundary of a coarse compactification of the space. It is also shown that there is a bijective correspondence between the set of all coarse equivalence classes of controlled products and the set of all equivalence classes of coarse compactifications.

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The space of formal balls and models of quasi-metric spaces

Mathematical Structures in Computer Science ◽

10.1017/s0960129509007439 ◽

2009 ◽

Vol 19 (2) ◽

pp. 337-355 ◽

Cited By ~ 17

Author(s):

M. ALI-AKBARI ◽

B. HONARI ◽

M. POURMAHDIAN ◽

M. M. REZAII

Keyword(s):

Metric Space ◽

Partially Ordered Set ◽

Metric Spaces ◽

Ordered Set ◽

Space Problem ◽

Partially Ordered ◽

Sorgenfrey Line ◽

Maximal Point ◽

Ideal Completion ◽

The Ideal

In this paper we study quasi-metric spaces using domain theory. Our main objective in this paper is to study the maximal point space problem for quasi-metric spaces. Here we prove that quasi-metric spaces that satisfy certain completeness properties, such as Yoneda and Smyth completeness, can be modelled by continuous dcpo's. To achieve this goal, we first study the partially ordered set of formal balls (BX, ⊑) of a quasi-metric space (X, d). Following Edalat and Heckmann, we prove that the order properties of (BX, ⊑) are tightly connected to topological properties of (X, d). In particular, we prove that (BX, ⊑) is a continuous dcpo if (X, d) is algebraic Yoneda complete. Furthermore, we show that this construction gives a model for Smyth-complete quasi-metric spaces. Then, for a given quasi-metric space (X, d), we introduce the partially ordered set of abstract formal balls (BX, ⊑, ≺). We prove that if the conjugate space (X, d−1) of a quasi-metric space (X, d) is right K-complete, then the ideal completion of (BX, ⊑, ≺) is a model for (X, d). This construction provides a model for any Yoneda-complete quasi-metric space (X, d), as well as the Sorgenfrey line, Kofner plane and Michael line.

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Spectra for Infinite Tensor Product Type Actions of Compact Groups

Canadian Journal of Mathematics ◽

10.4153/cjm-1996-018-6 ◽

1996 ◽

Vol 48 (2) ◽

pp. 330-342

Author(s):

Elliot C. Gootman ◽

Aldo J. Lazar

Keyword(s):

Tensor Product ◽

Compact Group ◽

Abelian Groups ◽

Product Type ◽

Crossed Product ◽

Compact Groups ◽

Ideal Structure ◽

Crossed Product Algebra ◽

Product Algebra ◽

The Ideal

AbstractWe present explicit calculations of the Arveson spectrum, the strong Arveson spectrum, the Connes spectrum, and the strong Connes spectrum, for an infinite tensor product type action of a compact group. Using these calculations and earlier results (of the authors and C. Peligrad) relating the various spectra to the ideal structure of the crossed product algebra, we prove that the topology of G influences the ideal structure of the crossed product algebra, in the following sense: if G contains a nontrivial connected group as a direct summand, then the crossed product algebra may be prime, but it is never simple; while if G is discrete, the crossed product algebra is simple if and only if it is prime. These results extend to compact groups analogous results of Bratteli for abelian groups. In addition, we exhibit a class of examples illustrating that for compact groups, unlike the case for abelian groups, the Connes spectrum and strong Connes spectrum need not be stable.

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On Asymmetric Distances

Analysis and Geometry in Metric Spaces ◽

10.2478/agms-2013-0004 ◽

2013 ◽

Vol 1 ◽

pp. 200-231 ◽

Cited By ~ 6

Author(s):

Andrea C.G. Mennucci

Keyword(s):

Total Variation ◽

Calculus Of Variations ◽

Distance Function ◽

Metric Space ◽

Metric Spaces ◽

Geodesic Segment ◽

Intrinsic Metric ◽

Typical Application ◽

Variation Formula

Abstract In this paper we discuss asymmetric length structures and asymmetric metric spaces. A length structure induces a (semi)distance function; by using the total variation formula, a (semi)distance function induces a length. In the first part we identify a topology in the set of paths that best describes when the above operations are idempotent. As a typical application, we consider the length of paths defined by a Finslerian functional in Calculus of Variations. In the second part we generalize the setting of General metric spaces of Busemann, and discuss the newly found aspects of the theory: we identify three interesting classes of paths, and compare them; we note that a geodesic segment (as defined by Busemann) is not necessarily continuous in our setting; hence we present three different notions of intrinsic metric space.

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A new Ф-generalized quasi metric space with some fixed point results and applications

Filomat ◽

10.2298/fil1711157a ◽

2017 ◽

Vol 31 (11) ◽

pp. 3157-3172

Author(s):

Mujahid Abbas ◽

Bahru Leyew ◽

Safeer Khan

Keyword(s):

Fixed Point ◽

Differential Equations ◽

Fixed Points ◽

Periodic Solutions ◽

Metric Space ◽

Delay Differential Equations ◽

Fixed Point Theorems ◽

Metric Spaces ◽

Existence Of Periodic Solutions ◽

Delay Differential

In this paper, the concept of a new ?-generalized quasi metric space is introduced. A number of well-known quasi metric spaces are retrieved from ?-generalized quasi metric space. Some general fixed point theorems in a ?-generalized quasi metric spaces are proved, which generalize, modify and unify some existing fixed point theorems in the literature. We also give applications of our results to obtain fixed points for contraction mappings in the domain of words and to prove the existence of periodic solutions of delay differential equations.

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On Some New Contractive Conditions in Complete Metric Spaces

Mathematics ◽

10.3390/math9020118 ◽

2021 ◽

Vol 9 (2) ◽

pp. 118

Author(s):

Jelena Vujaković ◽

Eugen Ljajko ◽

Mirjana Pavlović ◽

Stojan Radenović

Keyword(s):

Current Literature ◽

Metric Space ◽

Metric Spaces ◽

Complete Metric Spaces ◽

Nonlinear Anal ◽

Increasing Mapping ◽

Strictly Increasing Mapping

One of the main goals of this paper is to obtain new contractive conditions using the method of a strictly increasing mapping F:(0,+∞)→(−∞,+∞). According to the recently obtained results, this was possible (Wardowski’s method) only if two more properties (F2) and (F3) were used instead of the aforementioned strictly increasing (F1). Using only the fact that the function F is strictly increasing, we came to new families of contractive conditions that have not been found in the existing literature so far. Assuming that α(u,v)=1 for every u and v from metric space Ξ, we obtain some contractive conditions that can be found in the research of Rhoades (Trans. Amer. Math. Soc. 1977, 222) and Collaco and Silva (Nonlinear Anal. TMA 1997). Results of the paper significantly improve, complement, unify, generalize and enrich several results known in the current literature. In addition, we give examples with results in line with the ones we obtained.

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An Intrinsic Characterization of Five Points in a CAT(0) Space

Analysis and Geometry in Metric Spaces ◽

10.1515/agms-2020-0111 ◽

2020 ◽

Vol 8 (1) ◽

pp. 114-165

Author(s):

Tetsu Toyoda

Keyword(s):

Metric Space ◽

Isometric Embedding ◽

Metric Spaces ◽

Necessary Conditions ◽

New Approach ◽

Intrinsic Characterization ◽

New Family

AbstractGromov (2001) and Sturm (2003) proved that any four points in a CAT(0) space satisfy a certain family of inequalities. We call those inequalities the ⊠-inequalities, following the notation used by Gromov. In this paper, we prove that a metric space X containing at most five points admits an isometric embedding into a CAT(0) space if and only if any four points in X satisfy the ⊠-inequalities. To prove this, we introduce a new family of necessary conditions for a metric space to admit an isometric embedding into a CAT(0) space by modifying and generalizing Gromov’s cycle conditions. Furthermore, we prove that if a metric space satisfies all those necessary conditions, then it admits an isometric embedding into a CAT(0) space. This work presents a new approach to characterizing those metric spaces that admit an isometric embedding into a CAT(0) space.

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Fuzzy double controlled metric spaces and related results

Journal of Intelligent & Fuzzy Systems ◽

10.3233/jifs-202594 ◽

2021 ◽

Vol 40 (5) ◽

pp. 9977-9985

Author(s):

Naeem Saleem ◽

Hüseyin Işık ◽

Salman Furqan ◽

Choonkil Park

Keyword(s):

Integral Equation ◽

Metric Space ◽

Existence And Uniqueness ◽

Metric Spaces ◽

Banach Contraction Principle ◽

Uniqueness Of Solution ◽

Contraction Principle ◽

Triangular Inequality ◽

Banach Contraction ◽

The Banach Contraction Principle

In this paper, we introduce the concept of fuzzy double controlled metric space that can be regarded as the generalization of fuzzy b-metric space, extended fuzzy b-metric space and controlled fuzzy metric space. We use two non-comparable functions α and β in the triangular inequality as: M q ( x , z , t α ( x , y ) + s β ( y , z ) ) ≥ M q ( x , y , t ) ∗ M q ( y , z , s ) . We prove Banach contraction principle in fuzzy double controlled metric space and generalize the Banach contraction principle in aforementioned spaces. We give some examples to support our main results. An application to existence and uniqueness of solution for an integral equation is also presented in this work.

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Extraction new results of common fixed point theorems for $({T}, {\alpha }_{{s}}, {F})$-contraction of six mappings in a tripled b-metric space with an application of integral equations

Journal of Inequalities and Applications ◽

10.1186/s13660-020-02503-9 ◽

2020 ◽

Vol 2020 (1) ◽

Author(s):

Ghorban Khalilzadeh Ranjbar ◽

Mohammad Esmael Samei

Keyword(s):

Fixed Point ◽

Common Fixed Point ◽

Integral Equations ◽

Metric Space ◽

Fixed Point Theorems ◽

Metric Spaces ◽

Common Solution ◽

Type Integral ◽

First Time ◽

Common Fixed Point Theorems

Abstract The aim of this work is to usher in tripled b-metric spaces, triple weakly $\alpha _{s}$ α s -admissible, triangular partially triple weakly $\alpha _{s}$ α s -admissible and their properties for the first time. Also, we prove some theorems about coincidence and common fixed point for six self-mappings. On the other hand, we present a new model, talk over an application of our results to establish the existence of common solution of the system of Volterra-type integral equations in a triple b-metric space. Also, we give some example to illustrate our theorems in the section of main results. Finally, we show an application of primary results.

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