Model Linkage Selection for Cooperative Learning

15 May 2020  ·  Jiaying Zhou, Jie Ding, Kean Ming Tan, Vahid Tarokh ·

We consider a distributed learning setting where each agent/learner holds a specific parametric model and data source. The goal is to integrate information across a set of learners to enhance the prediction accuracy of a given learner. A natural way to integrate information is to build a joint model across a group of learners that shares common parameters of interest. However, the underlying parameter sharing patterns across a set of learners may not be a priori known. Misspecifying the parameter sharing patterns or the parametric model for each learner often yields a biased estimation and degrades the prediction accuracy. We propose a general method to integrate information across a set of learners that is robust against misspecifications of both models and parameter sharing patterns. The main crux is to sequentially incorporate additional learners that can enhance the prediction accuracy of an existing joint model based on user-specified parameter sharing patterns across a set of learners. Theoretically, we show that the proposed method can data-adaptively select the most suitable way of parameter sharing and thus enhance the predictive performance of any particular learner of interest. Extensive numerical studies show the promising performance of the proposed method.

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