Transfer Learning for General M-estimators with Decomposable Regularizers in High-dimensions

06/07/2023
by   Zeyu Li, et al.
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To incorporate useful information from related statistical tasks into the target one, we propose a two-step transfer learning algorithm in the general M-estimators framework with decomposable regularizers in high-dimensions. When the informative sources are known in the oracle sense, in the first step, we acquire knowledge of the target parameter by pooling the useful source datasets and the target one. In the second step, the primal estimator is fine-tuned using the target dataset. In contrast to the existing literatures which exert homogeneity conditions for Hessian matrices of various population loss functions, our theoretical analysis shows that even if the Hessian matrices are heterogeneous, the pooling estimators still provide adequate information by slightly enlarging regularization, and numerical studies further validate the assertion. Sparse regression and low-rank trace regression for both linear and generalized linear cases are discussed as two specific examples under the M-estimators framework. When the informative source datasets are unknown, a novel truncated-penalized algorithm is proposed to acquire the primal estimator and its oracle property is proved. Extensive numerical experiments are conducted to support the theoretical arguments.

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