A unified framework for learning with nonlinear model classes from arbitrary linear samples

November 25, 2023 ยท Declared Dead ยท ๐Ÿ› International Conference on Machine Learning

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Authors Ben Adcock, Juan M. Cardenas, Nick Dexter arXiv ID 2311.14886 Category cs.LG: Machine Learning Cross-listed cs.IT Citations 4 Venue International Conference on Machine Learning Last Checked 4 months ago
Abstract
This work considers the fundamental problem of learning an unknown object from training data using a given model class. We introduce a unified framework that allows for objects in arbitrary Hilbert spaces, general types of (random) linear measurements as training data and general types of nonlinear model classes. We establish a series of learning guarantees for this framework. These guarantees provide explicit relations between the amount of training data and properties of the model class to ensure near-best generalization bounds. In doing so, we also introduce and develop the key notion of the variation of a model class with respect to a distribution of sampling operators. To exhibit the versatility of this framework, we show that it can accommodate many different types of well-known problems of interest. We present examples such as matrix sketching by random sampling, compressed sensing with isotropic vectors, active learning in regression and compressed sensing with generative models. In all cases, we show how known results become straightforward corollaries of our general learning guarantees. For compressed sensing with generative models, we also present a number of generalizations and improvements of recent results. In summary, our work not only introduces a unified way to study learning unknown objects from general types of data, but also establishes a series of general theoretical guarantees which consolidate and improve various known results.
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