DartsReNet: Exploring new RNN cells in ReNet architectures

04/11/2023

∙

We present new Recurrent Neural Network (RNN) cells for image classification using a Neural Architecture Search (NAS) approach called DARTS. We are interested in the ReNet architecture, which is a RNN based approach presented as an alternative for convolutional and pooling steps. ReNet can be defined using any standard RNN cells, such as LSTM and GRU. One limitation is that standard RNN cells were designed for one dimensional sequential data and not for two dimensions like it is the case for image classification. We overcome this limitation by using DARTS to find new cell designs. We compare our results with ReNet that uses GRU and LSTM cells. Our found cells outperform the standard RNN cells on CIFAR-10 and SVHN. The improvements on SVHN indicate generalizability, as we derived the RNN cell designs from CIFAR-10 without performing a new cell search for SVHN.

READ FULL TEXT

DartsReNet: Exploring new RNN cells in ReNet architectures

On Redundancy and Diversity in Cell-based Neural Architecture Search

Machine Learning on Sequential Data Using a Recurrent Weighted Average

Neural Architecture Construction using EnvelopeNets

LARNN: Linear Attention Recurrent Neural Network

Going Wider: Recurrent Neural Network With Parallel Cells

A graphical, scalable and intuitive method for the placement and the connection of biological cells

Listwise Learning to Rank by Exploring Unique Ratings

DartsReNet: Exploring new RNN cells in ReNet architectures

Related Research

On Redundancy and Diversity in Cell-based Neural Architecture Search

Machine Learning on Sequential Data Using a Recurrent Weighted Average

Neural Architecture Construction using EnvelopeNets

LARNN: Linear Attention Recurrent Neural Network

Going Wider: Recurrent Neural Network With Parallel Cells

A graphical, scalable and intuitive method for the placement and the connection of biological cells

Listwise Learning to Rank by Exploring Unique Ratings