Abstract
Devising computational models for detecting abnormalities reflective of diseases from facial structures is a novel and emerging field of research in automatic face analysis. In this paper, we focus on automatic pain intensity estimation from faces. This has a paramount potential diagnosis values in healthcare applications. In this context, we present a novel 3D deep model for dynamic spatiotemporal representation of faces in videos. Using several convolutional layers with diverse temporal depths, our proposed model captures a wide range of spatiotemporal variations in the faces. Moreover, we introduce a cross-architecture knowledge transfer technique for training 3D convolutional neural networks using a pre-trained 2D architecture. This strategy is a practical approach for training 3D models, especially when the size of the database is relatively small. Our extensive experiments and analysis on two benchmarking and publicly available databases, namely the UNBC-McMaster shoulder pain and the BioVid, clearly show that our proposed method consistently outperforms many state-of-the-art methods in automatic pain intensity estimation.
Highlights
Pain is among vital indicators of our health condition
Our aim is to capture the dynamics of the face that embody most of the relevant information for automatic pain intensity estimation
We compared the performance of our proposed Spatiotemporal Convolutional Network (SCN) with the recent state-of-the-art methods for automatic pain intensity estimation on the UNBC-McMaster (Lucey et al 2011b) and the BioVid (Walter et al 2013) databases
Summary
Pain is among vital indicators of our health condition. It can be defined as a highly unpleasant sensation which is caused by diseases, injuries, or mental distress. Pain is often considered as the fifth vital sign in disease diagnosis (Lynch 2001). Chronic pain can carry a wide array of pathophysiological risks. Pain is usually reported by patients themselves (selfreport), either in clinical inspection or using Visual Analog Scale (VAS) (Lesage et al 2012). Technologies that automatically recognize such a state from the facial patterns of a patient can be extremely powerful, both diagnostically and therapeutically. Automatic pain expression detection has an important potential diag-
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