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 20762100 of 3073 papers

TitleStatusHype
On the Robustness of Active Learning0
Bayesian active learning for production, a systematic study and a reusable libraryCode1
GPIRT: A Gaussian Process Model for Item Response Theory0
Active Imitation Learning from Multiple Non-Deterministic Teachers: Formulation, Challenges, and Algorithms0
High-contrast "gaudy" images improve the training of deep neural network models of visual cortex0
Fourier Sparse Leverage Scores and Approximate Kernel Learning0
On-the-fly Closed-loop Autonomous Materials Discovery via Bayesian Active Learning0
Active Invariant Causal Prediction: Experiment Selection through StabilityCode1
Dialog Policy Learning for Joint Clarification and Active Learning Queries0
Learning compositional models of robot skills for task and motion planningCode1
Sophisticated Inference0
How useful is Active Learning for Image-based Plant Phenotyping?Code0
Attribute-Efficient Learning of Halfspaces with Malicious Noise: Near-Optimal Label Complexity and Noise Tolerance0
Aspect-based Sentiment Analysis of Scientific ReviewsCode0
Committee neural network potentials control generalization errors and enable active learningCode0
Toward Optimal Probabilistic Active Learning Using a Bayesian ApproachCode0
Hyperspectral Image Classification of Convolutional Neural Network Combined with Valuable Samples0
A2-LINK: Recognizing Disguised Faces via Active Learning and Adversarial Noise based Inter-Domain KnowledgeCode1
Adaptive quadrature schemes for Bayesian inference via active learning0
MM-KTD: Multiple Model Kalman Temporal Differences for Reinforcement LearningCode0
Machine learning methods to detect money laundering in the Bitcoin blockchain in the presence of label scarcityCode1
Fuzziness-based Spatial-Spectral Class Discriminant Information Preserving Active Learning for Hyperspectral Image ClassificationCode0
JointMap: Joint Query Intent Understanding For Modeling Intent Hierarchies in E-commerce Search0
Active Fuzzing for Testing and Securing Cyber-Physical SystemsCode0
Active Imitation Learning with Noisy GuidanceCode1
Show:102550
← PrevPage 84 of 123Next →

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