Abstract:
Foot ulceration can be prevented by using thermal information of the plantar foot surface. Indeed, important indicators can be provided with a thermal infrared image. As ...Show MoreMetadata
Abstract:
Foot ulceration can be prevented by using thermal information of the plantar foot surface. Indeed, important indicators can be provided with a thermal infrared image. As part of a non-constraining acquisition protocol, these images are freehandedly taken with a smartphone equipped by a dedicated thermal camera. A total of 248 images have been obtained from an acquisition campaign composed of control and pathological subjects. Our aim is the segmentation of these plantar foot thermal images. To that end, we compare three different deep learning methods namely, the Fully Convolutional Networks (FCN), SegNet, U-Net, and the previously proposed prior shape active contour-based method. 80% of our database serves to train the 3 deep learning networks and 20% are used for the test. When applied to our data, results show that the SegNet method outperforms the three other methods with a Dice Similarity Coefficient (DSC) equal to 97.26%. This method also shows efficiency in segmenting both feet simultaneously with a DSC equal to 96.8% for a smartphone based plantar foot thermal analysis for diabetic patients.
Date of Conference: 02-06 September 2019
Date Added to IEEE Xplore: 18 November 2019
ISBN Information: