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 20012025 of 3073 papers

TitleStatusHype
Temporal Coherence for Active Learning in Videos0
Temporal Output Discrepancy for Loss Estimation-based Active Learning0
TESSERACT: Eliminating Experimental Bias in Malware Classification across Space and Time0
Testable Learning with Distribution Shift0
Text Classification from Positive and Unlabeled Data using Misclassified Data Correction0
TextPro-AL: An Active Learning Platform for Flexible and Efficient Production of Training Data for NLP Tasks0
Textual Data Augmentation for Efficient Active Learning on Tiny Datasets0
The Application of Active Query K-Means in Text Classification0
The Benefits of Word Embeddings Features for Active Learning in Clinical Information Extraction0
The Best of Both Worlds: Combining Human and Machine Translations for Multilingual Semantic Parsing with Active Learning0
The CAMOMILE Collaborative Annotation Platform for Multi-modal, Multi-lingual and Multi-media Documents0
The Cost of Replicability in Active Learning0
The Effectiveness of Variational Autoencoders for Active Learning0
Bayesian Active Learning in the Presence of Nuisance Parameters0
The Impact of Typicality for Informative Representative Selection0
The Importance of Metric Learning for Robotic Vision: Open Set Recognition and Active Learning0
The Infinite Index: Information Retrieval on Generative Text-To-Image Models0
The Power of Comparisons for Actively Learning Linear Classifiers0
The Power of Ensembles for Active Learning in Image Classification0
The Power of Localization for Efficiently Learning Linear Separators with Noise0
The Practical Challenges of Active Learning: Lessons Learned from Live Experimentation0
The Relationship Between Agnostic Selective Classification Active Learning and the Disagreement Coefficient0
The Relevance of Bayesian Layer Positioning to Model Uncertainty in Deep Bayesian Active Learning0
The Role of Higher-Order Cognitive Models in Active Learning0
The Search for Squawk: Agile Modeling in Bioacoustics0
Show:102550
← PrevPage 81 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