We address a task of estimating sparse coefficients in linear regression when the covariates are drawn from an $L$-subexponential random vector, which belongs to a class of distributions having heavier tails than a Gaussian random vector. Prior works have tackled this issue by assuming that the covariates are drawn from an $L$-subexponential random vector and have established error bounds that resemble those derived for Gaussian random vectors. However, these previous methods require stronger conditions to derive error bounds than those employed for Gaussian random vectors. In the present paper, we present an error bound identical to that obtained for Gaussian random vectors, up to constant factors, without requiring stronger conditions, even when the covariates are drawn from an $L$-subexponential random vector. Somewhat interestingly, we utilize an $\ell_1$-penalized Huber regression, that is recognized for its robustness to heavy-tailed random noises, not covariates. We believe that the present paper reveals a new aspect of the $\ell_1$-penalized Huber regression.
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