Related papers: Evidential Deep Active Learning for Semi-Supervised Classification

Evidential Deep Active Learning for Semi-Supervised Classification

URL: http://arxiv.org/abs/2505.20691v1
Date: Tue, 27 May 2025 03:59:48 GMT
Title: Evidential Deep Active Learning for Semi-Supervised Classification
Authors: Shenkai Zhao, Xinao Zhang, Lipeng Pan, Xiaobin Xu, Danilo Pelusi,
Abstract summary: This paper proposes an evidential deep active learning approach for semi-supervised classification (EDALSSC)<n>EDALSSC builds a semi-supervised learning framework to simultaneously quantify the uncertainty estimation of labeled and unlabeled data during the learning process.<n> Experimental results demonstrate that EDALSSC outperforms existing semi-supervised and supervised active learning approaches on image classification datasets.
Score: 8.640249508547885
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Semi-supervised classification based on active learning has made significant progress, but the existing methods often ignore the uncertainty estimation (or reliability) of the prediction results during the learning process, which makes it questionable whether the selected samples can effectively update the model. Hence, this paper proposes an evidential deep active learning approach for semi-supervised classification (EDALSSC). EDALSSC builds a semi-supervised learning framework to simultaneously quantify the uncertainty estimation of labeled and unlabeled data during the learning process. The uncertainty estimation of the former is associated with evidential deep learning, while that of the latter is modeled by combining ignorance information and conflict information of the evidence from the perspective of the T-conorm operator. Furthermore, this article constructs a heuristic method to dynamically balance the influence of evidence and the number of classes on uncertainty estimation to ensure that it does not produce counter-intuitive results in EDALSSC. For the sample selection strategy, EDALSSC selects the sample with the greatest uncertainty estimation that is calculated in the form of a sum when the training loss increases in the latter half of the learning process. Experimental results demonstrate that EDALSSC outperforms existing semi-supervised and supervised active learning approaches on image classification datasets.

Related papers

TULiP: Test-time Uncertainty Estimation via Linearization and Weight Perturbation [11.334867025651233]
We propose TULiP, a theoretically-driven uncertainty estimator for OOD detection.<n>Our approach considers a hypothetical perturbation applied to the network before convergence.<n>Our method exhibits state-of-the-art performance, particularly for near-distribution samples.
arXiv Detail & Related papers (2025-05-22T17:16:41Z)
Uncertainty for Active Learning on Graphs [70.44714133412592]
Uncertainty Sampling is an Active Learning strategy that aims to improve the data efficiency of machine learning models.<n>We benchmark Uncertainty Sampling beyond predictive uncertainty and highlight a significant performance gap to other Active Learning strategies.<n>We develop ground-truth Bayesian uncertainty estimates in terms of the data generating process and prove their effectiveness in guiding Uncertainty Sampling toward optimal queries.
arXiv Detail & Related papers (2024-05-02T16:50:47Z)
Querying Easily Flip-flopped Samples for Deep Active Learning [63.62397322172216]
Active learning is a machine learning paradigm that aims to improve the performance of a model by strategically selecting and querying unlabeled data. One effective selection strategy is to base it on the model's predictive uncertainty, which can be interpreted as a measure of how informative a sample is. This paper proposes the it least disagree metric (LDM) as the smallest probability of disagreement of the predicted label.
arXiv Detail & Related papers (2024-01-18T08:12:23Z)
NTKCPL: Active Learning on Top of Self-Supervised Model by Estimating True Coverage [3.4806267677524896]
We propose a novel active learning strategy, neural tangent kernel clustering-pseudo-labels (NTKCPL) It estimates empirical risk based on pseudo-labels and the model prediction with NTK approximation. We validate our method on five datasets, empirically demonstrating that it outperforms the baseline methods in most cases.
arXiv Detail & Related papers (2023-06-07T01:43:47Z)
Adaptive Negative Evidential Deep Learning for Open-set Semi-supervised Learning [69.81438976273866]
Open-set semi-supervised learning (Open-set SSL) considers a more practical scenario, where unlabeled data and test data contain new categories (outliers) not observed in labeled data (inliers) We introduce evidential deep learning (EDL) as an outlier detector to quantify different types of uncertainty, and design different uncertainty metrics for self-training and inference. We propose a novel adaptive negative optimization strategy, making EDL more tailored to the unlabeled dataset containing both inliers and outliers.
arXiv Detail & Related papers (2023-03-21T09:07:15Z)
Uncertainty Estimation by Fisher Information-based Evidential Deep Learning [61.94125052118442]
Uncertainty estimation is a key factor that makes deep learning reliable in practical applications. We propose a novel method, Fisher Information-based Evidential Deep Learning ($mathcalI$-EDL) In particular, we introduce Fisher Information Matrix (FIM) to measure the informativeness of evidence carried by each sample, according to which we can dynamically reweight the objective loss terms to make the network more focused on the representation learning of uncertain classes.
arXiv Detail & Related papers (2023-03-03T16:12:59Z)
Temporal Output Discrepancy for Loss Estimation-based Active Learning [65.93767110342502]
We present a novel deep active learning approach that queries the oracle for data annotation when the unlabeled sample is believed to incorporate high loss. Our approach achieves superior performances than the state-of-the-art active learning methods on image classification and semantic segmentation tasks.
arXiv Detail & Related papers (2022-12-20T19:29:37Z)
Consistency-Based Semi-supervised Evidential Active Learning for Diagnostic Radiograph Classification [2.3545156585418328]
We introduce a novel Consistency-based Semi-supervised Evidential Active Learning framework (CSEAL) We leverage predictive uncertainty based on theories of evidence and subjective logic to develop an end-to-end integrated approach. Our approach can substantially improve accuracy on rarer abnormalities with fewer labelled samples.
arXiv Detail & Related papers (2022-09-05T09:28:31Z)
Continual Learning For On-Device Environmental Sound Classification [63.81276321857279]
We propose a simple and efficient continual learning method for on-device environmental sound classification. Our method selects the historical data for the training by measuring the per-sample classification uncertainty.
arXiv Detail & Related papers (2022-07-15T12:13:04Z)
On robust risk-based active-learning algorithms for enhanced decision support [0.0]
Classification models are a fundamental component of physical-asset management technologies such as structural health monitoring (SHM) systems and digital twins. The paper proposes two novel approaches to counteract the effects of sampling bias: textitsemi-supervised learning, and textitdiscriminative classification models.
arXiv Detail & Related papers (2022-01-07T17:25:41Z)
Ask-n-Learn: Active Learning via Reliable Gradient Representations for Image Classification [29.43017692274488]
Deep predictive models rely on human supervision in the form of labeled training data. We propose Ask-n-Learn, an active learning approach based on gradient embeddings obtained using the pesudo-labels estimated in each of the algorithm.
arXiv Detail & Related papers (2020-09-30T05:19:56Z)

This list is automatically generated from the titles and abstracts of the papers in this site.