Representation Learning

Representation Learning is a process in machine learning where algorithms extract meaningful patterns from raw data to create representations that are easier to understand and process. These representations can be designed for interpretability, reveal hidden features, or be used for transfer learning. They are valuable across many fundamental machine learning tasks like image classification and retrieval.

Deep neural networks can be considered representation learning models that typically encode information which is projected into a different subspace. These representations are then usually passed on to a linear classifier to, for instance, train a classifier.

Representation learning can be divided into:

Supervised representation learning: learning representations on task A using annotated data and used to solve task B
Unsupervised representation learning: learning representations on a task in an unsupervised way (label-free data). These are then used to address downstream tasks and reducing the need for annotated data when learning news tasks. Powerful models like GPT and BERT leverage unsupervised representation learning to tackle language tasks.

More recently, self-supervised learning (SSL) is one of the main drivers behind unsupervised representation learning in fields like computer vision and NLP.

Here are some additional readings to go deeper on the task:

Representation Learning: A Review and New Perspectives - Bengio et al. (2012)
A Few Words on Representation Learning - Thalles Silva

( Image credit: Visualizing and Understanding Convolutional Networks )

Papers

Recently Added Most Hyped Most Active Needs Verification Most Verified

Showing 3571–3580 of 10580 papers

Title	Date	Tasks	Status	Hype
Edge-guided Representation Learning for Underwater Object Detection	Jun 1, 2023	Objectobject-detection	—Unverified	0
Understanding Augmentation-based Self-Supervised Representation Learning via RKHS Approximation and Regression	Jun 1, 2023	Contrastive LearningData Augmentation	—Unverified	0
Affinity-based Attention in Self-supervised Transformers Predicts Dynamics of Object Grouping in Humans	Jun 1, 2023	ObjectRepresentation Learning	CodeCode Available	0
CALICO: Self-Supervised Camera-LiDAR Contrastive Pre-training for BEV Perception	Jun 1, 2023	3D Object DetectionAutonomous Driving	—Unverified	0
Assessing Neural Network Representations During Training Using Data Diffusion Spectra	May 31, 2023	Mutual Information EstimationRepresentation Learning	CodeCode Available	1
An algebraic theory to discriminate qualia in the brain	May 31, 2023	Representation Learning	—Unverified	0
FlowCam: Training Generalizable 3D Radiance Fields without Camera Poses via Pixel-Aligned Scene Flow	May 31, 2023	Camera Pose EstimationOptical Flow Estimation	—Unverified	0
Additional Positive Enables Better Representation Learning for Medical Images	May 31, 2023	Representation LearningSelf-Supervised Learning	—Unverified	0
ManagerTower: Aggregating the Insights of Uni-Modal Experts for Vision-Language Representation Learning	May 31, 2023	cross-modal alignmentRepresentation Learning	CodeCode Available	1
Morphological Classification of Radio Galaxies using Semi-Supervised Group Equivariant CNNs	May 31, 2023	Contrastive LearningRepresentation Learning	—Unverified	0

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All datasets SciDocs Animals-10 CIFAR10 Circle Data Sports10

Benchmark Results

#	Model	Metric	Claimed	Verified	Status
1	SciNCL	Avg.	81.8	—	Unverified
2	SPECTER	Avg.	80	—	Unverified
3	Citeomatic	Avg.	76	—	Unverified
4	Sci-DeCLUTR	Avg.	66.6	—	Unverified
5	SciBERT	Avg.	59.6	—	Unverified
6	BioBERT	Avg.	58.8	—	Unverified
7	CiteBERT	Avg.	58.8	—	Unverified

#	Model	Metric	Claimed	Verified	Status
1	top_model_weights_with_3d_2	1:1 Accuracy	0.75	—	Unverified

#	Model	Metric	Claimed	Verified	Status
1	Resnet 18	Accuracy (%)	97.05	—	Unverified

#	Model	Metric	Claimed	Verified	Status
1	Morphological Network	Accuracy	97.3	—	Unverified

#	Model	Metric	Claimed	Verified	Status
1	Max Margin Contrastive	Silhouette Score	0.56	—	Unverified