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

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Showing 16511675 of 3073 papers

TitleStatusHype
ALLWAS: Active Learning on Language models in WASserstein space0
Active learning for imbalanced data under cold start0
The Application of Active Query K-Means in Text Classification0
Seeing and Believing: Evaluating the Trustworthiness of Twitter Users0
Zero-Round Active Learning0
Improving Cooperative Game Theory-based Data Valuation via Data Utility Learning0
Revisiting Uncertainty-based Query Strategies for Active Learning with TransformersCode1
Loss Prediction: End-to-End Active Learning Approach For Speech Recognition0
Automated Gain Control Through Deep Reinforcement Learning for Downstream Radar Object Detection0
RISAN: Robust Instance Specific Abstention NetworkCode0
Prioritized training on points that are learnable, worth learning, and not yet learned (workshop version)0
Mind Your Outliers! Investigating the Negative Impact of Outliers on Active Learning for Visual Question AnsweringCode1
Near-optimal inference in adaptive linear regression0
Matching a Desired Causal State via Shift InterventionsCode0
Knowledge Modelling and Active Learning in Manufacturing0
Multiple-criteria Based Active Learning with Fixed-size Determinantal Point Processes0
Active Learning of Abstract Plan Feasibility0
SIMILAR: Submodular Information Measures Based Active Learning In Realistic ScenariosCode1
Non-parametric Semi-Supervised Learning in Many-body Hilbert Space with Rescaled Logarithmic Fidelity0
On Graph Neural Network Ensembles for Large-Scale Molecular Property PredictionCode0
Active Learning with Multifidelity Modeling for Efficient Rare Event Simulation0
TableSense: Spreadsheet Table Detection with Convolutional Neural NetworksCode1
Multi-Domain Active Learning: Literature Review and Comparative StudyCode0
TagRuler: Interactive Tool for Span-Level Data Programming by DemonstrationCode1
Distributional Gradient Matching for Learning Uncertain Neural Dynamics ModelsCode0
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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