A multi-task network is introduced to generate narrow predictive intervals for counts in medical images while maintaining target coverage, tested on cell and white matter hyperintensity counting.
High-Quality Prediction Intervals for Deep Learning: A Distribution-Free, Ensembled Approach
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abstract
This paper considers the generation of prediction intervals (PIs) by neural networks for quantifying uncertainty in regression tasks. It is axiomatic that high-quality PIs should be as narrow as possible, whilst capturing a specified portion of data. We derive a loss function directly from this axiom that requires no distributional assumption. We show how its form derives from a likelihood principle, that it can be used with gradient descent, and that model uncertainty is accounted for in ensembled form. Benchmark experiments show the method outperforms current state-of-the-art uncertainty quantification methods, reducing average PI width by over 10%.
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As easy as 1, 2... 4? Uncertainty in counting tasks for medical imaging
A multi-task network is introduced to generate narrow predictive intervals for counts in medical images while maintaining target coverage, tested on cell and white matter hyperintensity counting.