Paper ID | MLSP-28.3 |
Paper Title |
FAILURE PREDICTION BY CONFIDENCE ESTIMATION OF UNCERTAINTY-AWARE DIRICHLET NETWORKS |
Authors |
Theodoros Tsiligkaridis, MIT Lincoln Laboratory, United States |
Session | MLSP-28: ML and Time Series |
Location | Gather.Town |
Session Time: | Thursday, 10 June, 14:00 - 14:45 |
Presentation Time: | Thursday, 10 June, 14:00 - 14:45 |
Presentation |
Poster
|
Topic |
Machine Learning for Signal Processing: [MLR-DEEP] Deep learning techniques |
IEEE Xplore Open Preview |
Click here to view in IEEE Xplore |
Virtual Presentation |
Click here to watch in the Virtual Conference |
Abstract |
Reliably assessing model confidence in deep learning and predicting errors likely to be made are key elements in providing safety for model deployment, in particular for applications with dire consequences. In this paper, it is first shown that uncertainty-aware deep Dirichlet neural networks provide an improved separation between the confidence of correct and incorrect predictions in the true class probability (TCP) metric. Second, as the true class is unknown at test time, a new criterion is proposed for learning the true class probability by matching prediction confidence scores while taking imbalance and TCP constraints into account for correct predictions and failures. Experimental results show our method improves upon the maximum class probability (MCP) baseline and predicted TCP for standard networks on several image classification tasks with various network architectures. |