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Deep Elastic Networks with Model Selection for Multi-Task Learning
In this work, we consider the problem of instance-wise dynamic network model
selection for multi-task learning. To this end, we propose an efficient
approach to exploit a compact but accurate model in a backbone architecture for
each instance of all tasks. The proposed method consists of an estimator and a
selector. The estimator is based on a backbone architecture and structured
hierarchically. It can produce multiple different network models of different
configurations in a hierarchical structure. The selector chooses a model
dynamically from a pool of candidate models given an input instance. The
selector is a relatively small-size network consisting of a few layers, which
estimates a probability distribution over the candidate models when an input
instance of a task is given. Both estimator and selector are jointly trained in
a unified learning framework in conjunction with a sampling-based learning
strategy, without additional computation steps. We demonstrate the proposed
approach for several image classification tasks compared to existing approaches
performing model selection or learning multiple tasks. Experimental results
show that our approach gives not only outstanding performance compared to other
competitors but also the versatility to perform instance-wise model selection
for multiple tasks.Comment: ICCV 201
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