中文

Distributed Prediction under Heterogeneity with Unidentifiable Parameter

统计方法学 2026-07-01 v1 最优化与控制 统计理论

摘要

Predicting a response based on covariates is a fundamental problem in statistics and machine learning. However, profound difficulties arise when the underlying low-dimensional structural parameters are unidentifiable, as typified in dimension reduction contexts. Specifically,estimating these non-identifiable parameters inherently introduces severe nonconvexity. In distributed settings, this difficulty is further compounded by the challenges of data heterogeneity and communication cost. To overcome these intertwined barriers, we propose a novel distributed semiparametric framework. We formulate an adaptive homogeneity pursuit utilizing a trace-similarity penalty to effectively address data heterogeneity. To resolve the ensuing severe nonconvexity and communication bottlenecks, we introduce an invex relaxation technique coupled with a multi-step local update algorithm, ensuring stable convergence to global optimality with significantly reduced communication overhead. Theoretically, we establish a non-asymptotic model-free prediction error bound and prove that our estimator achieves a two-phase minimax optimal convergence rate and an sharper model-free prediction error bound. Furthermore, we provide theoretical guarantees for algorithmic convergence and communication efficiency. Extensive simulations and a real-world multi-center medical application validate the superiority of our method.

引用

@article{arxiv.2607.00376,
  title  = {Distributed Prediction under Heterogeneity with Unidentifiable Parameter},
  author = {Erbo Li and Zhaojun Hu and Ting Wei and Yifan Sun and Liping Zhu},
  journal= {arXiv preprint arXiv:2607.00376},
  year   = {2026}
}