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In the mathematical field of topology a uniform isomorphism or uniform homeomorphism is a special isomorphism between uniform spaces that respects uniform properties. Uniform spaces with uniform maps form a category. An isomorphism between uniform spaces is called a uniform isomorphism.

Definition

A function ${\displaystyle f}$ between two uniform spaces ${\displaystyle X}$ and ${\displaystyle Y}$ is called a uniform isomorphism if it satisfies the following properties

• ${\displaystyle f}$ is a bijection
• ${\displaystyle f}$ is uniformly continuous
• the inverse function ${\displaystyle f^{-1}}$ is uniformly continuous

In other words, a uniform isomorphism is a uniformly continuous bijection between uniform spaces whose inverse is also uniformly continuous.

If a uniform isomorphism exists between two uniform spaces they are called uniformly isomorphic or uniformly equivalent.

Uniform embeddings

A uniform embedding is an injective uniformly continuous map ${\displaystyle i:X\to Y}$ between uniform spaces whose inverse ${\displaystyle i^{-1}:i(X)\to X}$ is also uniformly continuous, where the image ${\displaystyle i(X)}$ has the subspace uniformity inherited from ${\displaystyle Y.}$

Examples

The uniform structures induced by equivalent norms on a vector space are uniformly isomorphic.

See also

• Homeomorphism – Mapping which preserves all topological properties of a given space — an isomorphism between topological spaces
• Isometric isomorphism – Distance-preserving mathematical transformationPages displaying short descriptions of redirect targets — an isomorphism between metric spaces

References

• Kelley, John L. (1975) . General Topology. Graduate Texts in Mathematics. Vol. 27 (2nd ed.). New York: Springer-Verlag. ISBN 978-0-387-90125-1. OCLC 1365153., pp. 180-4

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