Supervised Autoencoder

Supervised autoencoders are neural networks trained to reconstruct input data (e.g., images, time series, 3D models) via a compressed latent representation, often used for dimensionality reduction, feature extraction, and anomaly detection. Current research emphasizes developing novel architectures like Kolmogorov-Arnold Networks and hierarchical autoencoders, and integrating autoencoders with other techniques such as diffusion models and contrastive learning to improve reconstruction quality and downstream task performance. This approach finds applications across diverse fields, from improving network throughput in autonomous vehicles to enhancing image generation and analysis in astronomy and medical imaging, demonstrating the broad utility of supervised autoencoders in data processing and analysis.

Papers

April 5, 2022

April 1, 2022

March 31, 2022

Self-distillation Augmented Masked Autoencoders for Histopathological Image Classification
Yang Luo, Zhineng Chen, Shengtian Zhou, Xieping Gao
Self Supervised Image Classification Supervised Autoencoder Image Analysis 3D Object Detection Distillation

March 23, 2022

March 19, 2022

March 18, 2022

Image Storage on Synthetic DNA Using Autoencoders
Xavier Pic, Marc Antonini
Supervised Autoencoder Autoencoder Based Lossy Image Compression Compressed Model DNA Storage Synthetic DNA Image Storage

March 13, 2022

Masked Autoencoders for Point Cloud Self-supervised Learning
Yatian Pang, Wenxiao Wang, Francis E. H. Tay, Wei Liu, Yonghong Tian, Li Yuan
Supervised Autoencoder Masked Autoencoders Input Point Cloud Auto Encoder Model

March 8, 2022

March 4, 2022

Rethinking Reconstruction Autoencoder-Based Out-of-Distribution Detection
Yibo Zhou
Supervised Autoencoder Full State Reconstruction Autoencoder Based Domain Translation Input Reconstruction Semantic Reconstruction Based Out of Distribution Detection

March 3, 2022

Graph Representation Learning Beyond Node and Homophily
You Li, Bei Lin, Binli Luo, Ning Gui
Supervised Autoencoder Jina Embeddings Graph Representation Learning Node Classification Unsupervised Graph

March 2, 2022

Transfer Learning of High-Fidelity Opacity Spectra in Autoencoders and Surrogate Models
Michael D. Vander Wal, Ryan G. McClarren, Kelli D. Humbird
Transfer Learning Supervised Autoencoder Surrogate Model High Fidelity High Energy Physic Ground Glass Opacity

February 25, 2022

Do autoencoders need a bottleneck for anomaly detection?
Bang Xiang Yong, Alexandra Brintrup
Neural Network Anomaly Detection Supervised Autoencoder Major Challenge Bottleneck Dataflow Accelerator Deep Autoencoders

February 21, 2022

Simplified Learning of CAD Features Leveraging a Deep Residual Autoencoder
Raoul Schönhof, Jannes Elstner, Radu Manea, Steffen Tauber, Ramez Awad, Marco F. Huber
Supervised Autoencoder Voxel Representation 3D Convolutional Concept Learning EfficientNet Algorithm CAD Software Residual Variational Autoencoder

February 20, 2022

Disentangling Autoencoders (DAE)
Jaehoon Cha, Jeyan Thiyagalingam
Supervised Autoencoder Variational Autoencoder Disentanglement Capability Disentangle Content Disentanglement Learning Disentanglement Metric

February 15, 2022

Deep Convolutional Autoencoder for Assessment of Drive-Cycle Anomalies in Connected Vehicle Sensor Data
Anthony Geglio, Eisa Hedayati, Mark Tascillo, Dyche Anderson, Jonathan Barker, Timothy C. Havens
Supervised Autoencoder Direct Assessment Unlabeled Anomaly Convolutional Autoencoder Vehicle Data Automotive Domain