Melanoma Classification via Hybrid Saliency and Conditional Random Field with Bottleneck to Optimize DeepLab.

Vo Thi Hong Tuyet; Nguyen Thanh Binh

Neural networks overcome drawbacks of vision tasks by becoming convolutional in a wide range of layers. The salient map is affected by multilevels of strong pixels (superpixels) in global images and that is dependent on the hard threshold for their dividing. Deep neural networks have been established for saliency prediction of segmentation because the feature extraction must be suited to the input data. The convolutional neural network (CNN) also endures conflict between spatial pattern and a likeness of salient objects. Semantic segmentation is one of the approaches to continue classification based on these features. Therefore, upgrading the extraction process can be of use in saliency. In this work, we optimize DeepLab based on an atrous convolutional and a conditional random field (CRF) with a bottleneck in the semantic segmentation method, which serves for classification. The backbone of deep feature extraction is atrous convolution and the bottleneck based on CRF for hybrid saliency in the encoder-decoder system. The classification results are compared with some approaches for saliency prediction of recent deeper methods in an ISIC 2017 dataset. The results give better values not only for saliency prediction for segmentation but also for training and testing for classification.

ARTIFICIAL neural networks; RANDOM fields; CONVOLUTIONAL neural networks; FEATURE extraction; MELANOMA

International Journal of Online & Biomedical Engineering, 2023, Vol 19, Issue 10, p140

2626-8493

Academic Journal

10.3991/ijoe.v19i10.39721