1 research outputs found
Morphological Networks for Image De-raining
Mathematical morphological methods have successfully been applied to filter
out (emphasize or remove) different structures of an image. However, it is
argued that these methods could be suitable for the task only if the type and
order of the filter(s) as well as the shape and size of operator kernel are
designed properly. Thus the existing filtering operators are problem (instance)
specific and are designed by the domain experts. In this work we propose a
morphological network that emulates classical morphological filtering
consisting of a series of erosion and dilation operators with trainable
structuring elements. We evaluate the proposed network for image de-raining
task where the SSIM and mean absolute error (MAE) loss corresponding to
predicted and ground-truth clean image is back-propagated through the network
to train the structuring elements. We observe that a single morphological
network can de-rain an image with any arbitrary shaped rain-droplets and
achieves similar performance with the contemporary CNNs for this task with a
fraction of trainable parameters (network size). The proposed morphological
network(MorphoN) is not designed specifically for de-raining and can readily be
applied to similar filtering / noise cleaning tasks. The source code can be
found here https://github.com/ranjanZ/2D-Morphological-NetworkComment: Mathematical Morphology \and Optimization \and Morphological Network
\and Image Filterin