SOTAVerified

Active Learning

Active Learning is a paradigm in supervised machine learning which uses fewer training examples to achieve better optimization by iteratively training a predictor, and using the predictor in each iteration to choose the training examples which will increase its chances of finding better configurations and at the same time improving the accuracy of the prediction model

Source: Polystore++: Accelerated Polystore System for Heterogeneous Workloads

Papers

Recently AddedMost HypedMost ActiveNeeds VerificationMost Verified

Showing 12761300 of 3073 papers

TitleStatusHype
Deep Active Learning with Manifold-preserving Trajectory Sampling0
Active Learning for Nonlinear System Identification with Guarantees0
Deep Active Learning with Noisy Oracle in Object Detection0
Confident Coreset for Active Learning in Medical Image Analysis0
Active Learning for Noisy Data Streams Using Weak and Strong Labelers0
Active and Semi-Supervised Learning in ASR: Benefits on the Acoustic and Language Models0
Confidence Estimation for Object Detection in Document Images0
Deep Bayesian Active Learning, A Brief Survey on Recent Advances0
Deep Bayesian Active Learning for Multiple Correct Outputs0
Deep Bayesian Active Learning for Natural Language Processing: Results of a Large-Scale Empirical Study0
ALEVS: Active Learning by Statistical Leverage Sampling0
Deep Bayesian Active-Learning-to-Rank for Endoscopic Image Data0
Deep Bayesian Active Learning-to-Rank with Relative Annotation for Estimation of Ulcerative Colitis Severity0
Active Learning-based Domain Adaptive Localized Polynomial Chaos Expansion0
Active Causal Learning for Decoding Chemical Complexities with Targeted Interventions0
Confidence Decision Trees via Online and Active Learning for Streaming (BIG) Data0
Deep Deterministic Uncertainty: A New Simple Baseline0
Algorithmic Performance-Accuracy Trade-off in 3D Vision Applications Using HyperMapper0
Adaptive Active Hypothesis Testing under Limited Information0
Detecting Repeating Objects using Patch Correlation Analysis0
Deep Ensemble Bayesian Active Learning : Adressing the Mode Collapse issue in Monte Carlo dropout via Ensembles0
Deterministic Langevin Unconstrained Optimization with Normalizing Flows0
Deep Ensemble Bayesian Active Learning : Addressing the Mode Collapse issue in Monte Carlo dropout via Ensembles0
Deep imitation learning for molecular inverse problems0
Confidence Calibration for Convolutional Neural Networks Using Structured Dropout0
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Benchmark Results

#ModelMetricClaimedVerifiedStatus
1TypiClustAccuracy93.2Unverified
2PT4ALAccuracy93.1Unverified
3Learning lossAccuracy91.01Unverified
4CoreGCNAccuracy90.7Unverified
5Core-setAccuracy89.92Unverified
6Random Baseline (Resnet18)Accuracy88.45Unverified
7Random Baseline (VGG16)Accuracy85.09Unverified