Homotopy Type Theory limit of a net > history (Rev #10, changes)

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Definition
See also

Definition

In premetric spaces

Let $R$ be a dense integral subdomain of the rational numbers $\mathbb{Q}$ and let $R_{+}$ be the positive terms of $R$ . Let $S$ be a $R_{+}$ -premetric space. Given a directed type $I$ , a term $l:S$ is a limit of a net $x: I \to S$ or that $x$ converges to $l$ if $l$ comes with a term

\lambda: \prod_{\epsilon:R_{+}} \Vert \sum_{N:I} \prod_{i:I} (i \geq N) \to (x_i \sim_{\epsilon} l) \Vert

A The limit of a net is usually written as~~limit of a sequence~~ ~~$a:\mathbb{N} \to S$~~ ~~is usually written as~~

\lim_{x n \to ∞ l} a (x (n)

~~\lim_{x~~ \lim_{n \to ~~\infty}~~ l} ~~a(x)~~ x(n)

where $n$ is a dummy variable.

A limit of a sequence $a:\mathbb{N} \to S$ is usually written as

\lim_{x \to \infty} a(x)

Cauchy approximations

Let $R$ be a dense integral subdomain of the rational numbers $\mathbb{Q}$ and let $R_{+}$ be the positive terms of $R$ .

A limit of a $R_{+}$ -Cauchy approximation $x: R_{+} \to S$ is a term $l:S$ with

x:R_{+} \to S \vdash c(x):\prod_{\delta:R_{+}} \prod_{\eta:R_{+}} x_\delta \sim_{\delta \oplus \eta} l

In convergence spaces

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Homotopy Type Theory limit of a net > history (Rev #10, changes)

Contents

Definition

In premetric spaces

Cauchy approximations

In convergence spaces

See also