Variable-state Latent Conditional Random Field models for facial expression analysis

Walecki, Robert; Rudovic, Ognjen; Pavlović, Vladimir; Pantić, Maja

doi:10.1016/j.imavis.2016.04.009

Cited by 10 publications

(7 citation statements)

References 42 publications

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“…Gehrig et al [34] used kernel partial least square regression for multi-label AU detection. Walecki et al [35] proposed a variable-state Conditional Random Field model for dynamic facial expression recognition and AU detection. Valstar et al [38] applied a combination of GentleBoost, support vector machines, and hidden Markov models to encode AUs and their temporal activation models.…”

Section: Cross-domain Studiesmentioning

confidence: 99%

Crossing Domains for AU Coding: Perspectives, Approaches, and Measures

Ertuğrul

Cohn

Jeni

et al. 2020

IEEE Trans. Biom. Behav. Identity Sci.

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Facial action unit (AU) detectors have performed well when trained and tested within the same domain. How well do AU detectors transfer to domains in which they have not been trained? We review literature on cross-domain transfer and conduct experiments to address limitations of prior research. We evaluate generalizability in four publicly available databases. EB + (an expanded version of BP4D + ), Sayette GFT, DISFA and UNBC Shoulder Pain (SP). The databases differ in observational scenarios, context, participant diversity, range of head pose, video resolution, and AU base rates. In most cases performance decreased with change in domain, often to below the threshold needed for behavioral research. However, exceptions were noted. Deep and shallow approaches generally performed similarly and average results were slightly better for deep model compared to shallow one. Occlusion sensitivity maps revealed that local specificity was greater for AU detection within than cross domains. The findings suggest that more varied domains and deep learning approaches may be better suited for generalizability and suggest the need for more attention to characteristics that vary between domains. Until further improvement is realized, caution is warranted when applying AU classifiers from one domain to another.

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Section: Cross-domain Studiesmentioning

confidence: 99%

Crossing Domains for AU Coding: Perspectives, Approaches, and Measures

Ertuğrul

Cohn

Jeni

et al. 2020

IEEE Trans. Biom. Behav. Identity Sci.

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“…All these methods focus solely on feature extraction while the network output remains unstructured. Walecki et al [16] introduced model structures and esti-mate complex feature representations simultaneously by combining conditional random field (CRF) encoded AU dependencies with deep learning. They de-signed a novel Copula CNN deep learning approach for modelling multivariate ordinal variables.…”

Section: Cnn Models For Facial Expression Analysismentioning

confidence: 99%

“…The VSL-CRF also performs integration over the latent variable m, the state of which (ordinal or nominal) defines the type of the latent states for each se-quence of facial expressions [16]. The definition of the VSL-CRF in Eq.…”

Section: Bidirectional Long Short-term Memory (Bilstm)mentioning

confidence: 99%

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Deep Learning Model for Detection of Pain Intensity from Facial Expression

Soar

Bargshady

Zhou

et al. 2018

Lecture Notes in Computer Science

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Many people who are suffering from a chronic pain face periods of acute pain and resulting problems during their illness and adequate reporting of symptoms is necessary for treatment. Some patients have difficulties in adequately alerting caregivers to their pain or describing the intensity which can impact on effective treatment. Pain and its intensity can be noticeable in ones face. Movements in facial muscles can depict ones current emotional state. Machine learning algorithms can detect pain intensity from facial expressions. The algorithm can extract and classify facial expression of pain among patients. In this paper, we propose a new deep learning model for detection of pain intensity from facial expressions. This automatic pain detection system may help clinicians to detect pain and its intensity in patients and by doing this healthcare organizations may have access to more complete and more regular information of patients regarding their pain.

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“…While expression recognition has attracted significant research attention [28,19,38], facial behavior analysis from naturalistic videos, associated to illumination changes, partial occlusions, pose variation, as well as low-intensity expressions pose challenges for current existing methods. In addition, while many areas of computer vision have experienced significant advancements with deep neural networks, analysis of facial dynamics has only recently benefited from deep convolutional networks [34,14,43,26].…”

Section: Introductionmentioning

confidence: 99%

Comparing Methods for Assessment of Facial Dynamics in Patients with Major Neurocognitive Disorders

Wang

Dantcheva

Broutart³

et al. 2019

Lecture Notes in Computer Science

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Assessing facial dynamics in patients with major neurocognitive disorders and specifically with Alzheimers disease (AD) has shown to be highly challenging. Classically such assessment is performed by clinical staff, evaluating verbal and non-verbal language of AD-patients, since they have lost a substantial amount of their cognitive capacity, and hence communication ability. In addition, patients need to communicate important messages, such as discomfort or pain. Automated methods would support the current healthcare system by allowing for telemedicine, i.e., lesser costly and logistically inconvenient examination. In this work we compare methods for assessing facial dynamics such as talking, singing, neutral and smiling in AD-patients, captured during music mnemotherapy sessions. Specifically, we compare 3D Con-vNets, Very Deep Neural Network based Two-Stream ConvNets, as well as Improved Dense Trajectories. We have adapted these methods from prominent action recognition methods and our promising results suggest that the methods generalize well to the context of facial dynamics. The Two-Stream ConvNets in combination with ResNet-152 obtains the best performance on our dataset, capturing well even minor facial dynamics and has thus sparked high interest in the medical community.

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Variable-state Latent Conditional Random Field models for facial expression analysis

Cited by 10 publications

References 42 publications

Crossing Domains for AU Coding: Perspectives, Approaches, and Measures

Crossing Domains for AU Coding: Perspectives, Approaches, and Measures

Deep Learning Model for Detection of Pain Intensity from Facial Expression

Comparing Methods for Assessment of Facial Dynamics in Patients with Major Neurocognitive Disorders

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