Uncertainty
"AI systems–like people–must often act despite partial and uncertain information. First, the information received may be unreliable (e.g., a patient may mis-remember when a disease started, or may not have noticed a symptom that is important to a diagnosis). In addition, rules connecting real-world events can never include all the factors that might determine whether their conclusions really apply (e.g., the correctness of basing a diagnosis on a lab test depends whether there were conditions that might have caused a false positive, on the test being done correctly, on the results being associated with the right patient, etc.) Thus in order to draw useful conclusions, AI systems must be able to reason about the probability of events, given their current knowledge."
– from David Leake, Reasoning Under Uncertainty
Quantification of Uncertainty with Adversarial Models
Neural Information Processing Systems
Quantifying uncertainty is important for actionable predictions in real-world applications.
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Versatile Energy-Based Probabilistic Models for High Energy Physics
Neural Information Processing Systems
However, it's not possible to utilize
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UDPM: Upsampling Diffusion Probabilistic Models
Neural Information Processing Systems
As a result, the reverse process gradually denoises and upsamples the latent variable to produce a sample from the data distribution.
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Gumbel
Neural Information Processing Systems
This enables individual tasks tofully leverage inductivebiases provided byrelated tasks, therefore improving the overall performance of all tasks. Experimental results demonstrate that the proposed VMTL is able to effectively tackle a variety of challenging multi-task learning settings with limited training data for both classification and regression.
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