Uncertainty Estimation refers to the process of quantifying the degree of uncertainty associated with predictions or measurements made by a model or system. It is a critical aspect of decision-making and analysis, providing insights into the reliability or confidence level of the information provided. Uncertainty estimation helps assess the limitations and potential errors associated with predictions or measurements.

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Multi-Label Temporal Evidential Neural Networks for Early Event Detection

Early event detection aims to detect events even before the event is complete. However, most of the existing methods focus on an event with a single label but fail to be applied to cases with multiple labels. Another non-negligible issue for early event detection is a prediction with overconfidence due to the high vacuity uncertainty that exists in the early time series. It results in an over-confidence estimation and hence unreliable predictions. To this end, technically, we propose a novel framework, Multi-Label Temporal Evidential Neural Network (MTENN), for multi-label uncertainty estimation in temporal data. MTENN is able to quality predictive uncertainty due to the lack of evidence for multi-label classifications at each time stamp based on belief/evidence theory. In addition, we introduce a novel uncertainty estimation head (weighted binomial comultiplication (WBC)) to quantify the fused uncertainty of a sub-sequence for early event detection. We validate the performance of our approach with state-of-the-art techniques on real-world audio datasets.