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can we get a family of classifiers $\left\{f_n\right\}_{n \in N}$such that $\lim_{n->∞} (E_{(X_1, Y_1), ...,(X_n, Y_n) \sim \rho}[R(f_n)]-R(f_B))=0 $

For a given classifier $f: \mathbb{R}^d \mapsto\{0,1,2\}$, let $$ R(f):=\mathbb{E}_{(X, Y) \sim \rho}\left[\mathbb{1}_{f(X) \neq Y}\right] $$ $f_B$ the Bayes classifier. can we get a family of ...

fantacy_crs

asked Mar 2, 2023 at 3:19

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How to prove emprical risk converges to expectation risk as $n\to \infty$?

For example, for a classical binary classification: $x \in \mathbb{R}^d$ and $y \in\{0,1\}$ let empirical risk be $R_{\ell}^n(f):=\frac{1}{n} \sum_{i=1}^n \ell\left(f\left(X_i\right), Y_i\right)$ and ...

fantacy_crs

asked Mar 2, 2023 at 2:29

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can we get a family of classifiers $\left\{f_n\right\}_{n \in N}$such that $\lim_{n->∞} (E_{(X_1, Y_1), ...,(X_n, Y_n) \sim \rho}[R(f_n)]-R(f_B))=0 $

How to prove emprical risk converges to expectation risk as $n\to \infty$?

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can we get a family of classifiers $\left\{f_n\right\}_{n \in N}$such that $\lim_{n->∞} (E_{(X_1, Y_1), ...,(X_n, Y_n) \sim \rho}[R(f_n)]-R(f_B))=0 $

How to prove emprical risk converges to expectation risk as $n\to \infty$?

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