Patrick Lucey scite author profile

In 2000, the Cohn-Kanade (CK) database was released for the purpose of promoting research into automatically detecting individual facial expressions. Since then, the CK database has become one of the most widely used test-beds for algorithm development and evaluation. During this period, three limitations have become apparent: 1) While AU codes are well validated, emotion labels are not, as they refer to what was requested rather than what was actually performed, 2) The lack of a common performance metric against which to evaluate new algorithms, and 3) Standard protocols for common databases have not emerged. As a consequence, the CK database has been used for both AU and emotion detection (even though labels for the latter have not been validated), comparison with benchmark algorithms is missing, and use of random subsets of the original database makes meta-analyses difficult. To address these and other concerns, we present the Extended Cohn-Kanade (CK+) database. The number of sequences is increased by 22% and the number of subjects by 27%. The target expression for each sequence is fully FACS coded and emotion labels have been revised and validated. In addition to this, non-posed sequences for several types of smiles and their associated metadata have been added. We present baseline results using Active Appearance Models (AAMs) and a linear support vector machine (SVM) classifier using a leaveone-out subject cross-validation for both AU and emotion detection for the posed data. The emotion and AU labels, along with the extended image data and tracked landmarks will be made available July 2010.

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Painful data: The UNBC-McMaster shoulder pain expression archive database

Lucey

et al. 2011

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Automatically Detecting Pain in Video Through Facial Action Units

Lucey¹,

Cohn²,

Matthews³

et al. 2011

IEEE Trans. Syst., Man, Cybern. B

225

145

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In a clinical setting, pain is reported either through patient self-report or via an observer. Such measures are problematic as they are: 1) subjective, and 2) give no specific timing information. Coding pain as a series of facial action units (AUs) can avoid these issues as it can be used to gain an objective measure of pain on a frame-by-frame basis. Using video data from patients with shoulder injuries, in this paper, we describe an active appearance model (AAM)-based system that can automatically detect the frames in video in which a patient is in pain. This pain data set highlights the many challenges associated with spontaneous emotion detection, particularly that of expression and head movement due to the patient's reaction to pain. In this paper, we show that the AAM can deal with these movements and can achieve significant improvements in both the AU and pain detection performance compared to the current-state-of-the-art approaches which utilize similarity-normalized appearance features only.

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Painful monitoring: Automatic pain monitoring using the UNBC-McMaster shoulder pain expression archive database

Lucey¹,

Cohn²,

Prkachin³

et al. 2012

Image and Vision Computing

151

133

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A Database for Person Re-Identification in Multi-Camera Surveillance Networks

et al. 2012

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Large-Scale Analysis of Soccer Matches Using Spatiotemporal Tracking Data

Bialkowski

Lucey

Carr

et al. 2014

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Person-independent facial expression detection using Constrained Local Models

Chew

Lucey

et al. 2011

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Identifying Team Style in Soccer Using Formations Learned from Spatiotemporal Tracking Data

Bialkowski

Lucey

Carr

et al. 2014

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Patrick Lucey

The Extended Cohn-Kanade Dataset (CK+): A complete dataset for action unit and emotion-specified expression

Painful data: The UNBC-McMaster shoulder pain expression archive database

Automatically Detecting Pain in Video Through Facial Action Units

Painful monitoring: Automatic pain monitoring using the UNBC-McMaster shoulder pain expression archive database

A Database for Person Re-Identification in Multi-Camera Surveillance Networks

Large-Scale Analysis of Soccer Matches Using Spatiotemporal Tracking Data

Person-independent facial expression detection using Constrained Local Models

Identifying Team Style in Soccer Using Formations Learned from Spatiotemporal Tracking Data

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