1 research outputs found
A Deep Journey into Super-resolution: A survey
Deep convolutional networks based super-resolution is a fast-growing field
with numerous practical applications. In this exposition, we extensively
compare 30+ state-of-the-art super-resolution Convolutional Neural Networks
(CNNs) over three classical and three recently introduced challenging datasets
to benchmark single image super-resolution. We introduce a taxonomy for
deep-learning based super-resolution networks that groups existing methods into
nine categories including linear, residual, multi-branch, recursive,
progressive, attention-based and adversarial designs. We also provide
comparisons between the models in terms of network complexity, memory
footprint, model input and output, learning details, the type of network losses
and important architectural differences (e.g., depth, skip-connections,
filters). The extensive evaluation performed, shows the consistent and rapid
growth in the accuracy in the past few years along with a corresponding boost
in model complexity and the availability of large-scale datasets. It is also
observed that the pioneering methods identified as the benchmark have been
significantly outperformed by the current contenders. Despite the progress in
recent years, we identify several shortcomings of existing techniques and
provide future research directions towards the solution of these open problems.Comment: Accepted in ACM Computing Survey