SOTAVerified

Data Augmentation

Data augmentation involves techniques used for increasing the amount of data, based on different modifications, to expand the amount of examples in the original dataset. Data augmentation not only helps to grow the dataset but it also increases the diversity of the dataset. When training machine learning models, data augmentation acts as a regularizer and helps to avoid overfitting.

Data augmentation techniques have been found useful in domains like NLP and computer vision. In computer vision, transformations like cropping, flipping, and rotation are used. In NLP, data augmentation techniques can include swapping, deletion, random insertion, among others.

Further readings:

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Papers

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Showing 81018150 of 8378 papers

TitleStatusHype
Learning Bayesian Networks with Incomplete Data by Augmentation0
Learning Collision-Free Space Detection from Stereo Images: Homography Matrix Brings Better Data Augmentation0
Learning Compositional Visual Concepts with Mutual Consistency0
Learning Contraction Policies from Offline Data0
Learning Cross-lingual Mappings for Data Augmentation to Improve Low-Resource Speech Recognition0
Learning Data Augmentation for Brain Tumor Segmentation with Coarse-to-Fine Generative Adversarial Networks0
Learning Data Manifolds with a Cutting Plane Method0
Learning Dense Wide Baseline Stereo Matching for People0
Learning Domain Invariant Representations for Generalizable Person Re-Identification0
Learning Domain-Sensitive and Sentiment-Aware Word Embeddings0
Learning End-to-End Action Interaction by Paired-Embedding Data Augmentation0
Learning for Counterfactual Fairness from Observational Data0
Learning from Data-Rich Problems: A Case Study on Genetic Variant Calling0
Learning from Few Samples: A Survey0
Learning from Multiple Noisy Augmented Data Sets for Better Cross-Lingual Spoken Language Understanding0
Learning from One Continuous Video Stream0
Learning Gaussian Data Augmentation in Feature Space for One-shot Object Detection in Manga0
Learning Generalizable Models via Disentangling Spurious and Enhancing Potential Correlations0
Learning Human Perception Dynamics for Informative Robot Communication0
Learning Instance-Specific Adaptation for Cross-Domain Segmentation0
Learning Invariances using the Marginal Likelihood0
Learning Knowledge-Enhanced Contextual Language Representations for Domain Natural Language Understanding0
Learning linear modules in a dynamic network with missing node observations0
Learning Linear Symmetries in Data Using Moment Matching0
Learning Loss for Test-Time Augmentation0
Learning More with Less: Conditional PGGAN-based Data Augmentation for Brain Metastases Detection Using Highly-Rough Annotation on MR Images0
Learning More with Less: GAN-based Medical Image Augmentation0
Learning Neural Light Transport0
Learning Noise-Invariant Representations for Robust Speech Recognition0
Learning Noise-Invariant Representations for Robust Speech Recognition0
Learning Noise-Robust Stable Koopman Operator for Control with Hankel DMD0
Learning Nonlinear Brain Dynamics: van der Pol Meets LSTM0
Learning Object Placement by Inpainting for Compositional Data Augmentation0
Learning Online Visual Invariances for Novel Objects via Supervised and Self-Supervised Training0
Learning Physical Common Sense as Knowledge Graph Completion via BERT Data Augmentation and Constrained Tucker Factorization0
Learning Polynomial Problems with SL(2,R) Equivariance0
Learning Pose Grammar for Monocular 3D Pose Estimation0
Benchmarking Augmentation Methods for Learning Robust Navigation Agents: the Winning Entry of the 2021 iGibson Challenge0
Learning Robust Feature Representations for Scene Text Detection0
Learning Rotation-Invariant Representations of Point Clouds Using Aligned Edge Convolutional Neural Networks0
Learning Sequential Information in Task-based fMRI for Synthetic Data Augmentation0
Learning Temporal Embeddings for Complex Video Analysis0
Learning the Localization Function: Machine Learning Approach to Fingerprinting Localization0
Learning the Non-linearity in Convolutional Neural Networks0
Learning to Ask Unanswerable Questions for Machine Reading Comprehension0
Learning to Augment for Casual User Recommendation0
Learning to Augment Influential Data0
Learning to Augment via Implicit Differentiation for Domain Generalization0
Learning to Detect Every Thing in an Open World0
Learning to Detect Instantaneous Changes with Retrospective Convolution and Static Sample Synthesis0
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All datasetsImageNetCIFAR-10GA1457

Benchmark Results

#ModelMetricClaimedVerifiedStatus
1DeiT-B (+MixPro)Accuracy (%)82.9Unverified
2ResNet-200 (DeepAA)Accuracy (%)81.32Unverified
3DeiT-S (+MixPro)Accuracy (%)81.3Unverified
4ResNet-200 (Fast AA)Accuracy (%)80.6Unverified
5ResNet-200 (UA)Accuracy (%)80.4Unverified
6ResNet-200 (AA)Accuracy (%)80Unverified
7ResNet-50 (DeepAA)Accuracy (%)78.3Unverified
8ResNet-50 (TA wide)Accuracy (%)78.07Unverified
9ResNet-50 (LoRot-E)Accuracy (%)77.72Unverified
10ResNet-50 (LoRot-I)Accuracy (%)77.71Unverified
#ModelMetricClaimedVerifiedStatus
1WideResNet-40-2 (Faster AA)Percentage error3.7Unverified
2Shake-Shake (26 2×32d) (Faster AA)Percentage error2.7Unverified
3WideResNet-28-10 (Faster AA)Percentage error2.6Unverified
4Shake-Shake (26 2×112d) (Faster AA)Percentage error2Unverified
5Shake-Shake (26 2×96d) (Faster AA)Percentage error2Unverified
#ModelMetricClaimedVerifiedStatus
1DiffAugClassification Accuracy92.7Unverified
2PaCMAPClassification Accuracy85.3Unverified
3hNNEClassification Accuracy77.4Unverified
4TopoAEClassification Accuracy74.6Unverified