Pain rehabilitation: E/Motion-based automated coaching

Lead Research Organisation: Imperial College London

Department Name: Computing

Abstract

Abstracts are not currently available in GtR for all funded research. This is normally because the abstract was not required at the time of proposal submission, but may be because it included sensitive information such as personal details.

Funded Value:

£374,438

Funded Period:

Sep 10 - Nov 14

Funder:

EPSRC

Project Status:

Closed

Project Category:

Research Grant

Project Reference:

EP/H016988/1

Principal Investigator:

Maja Pantic

Research Subject:

Info. & commun. Technol. (67%)

Medical & health interface (33%)

Research Topic:

Biomechanics & Rehabilitation (33%)

Computer Graphics & Visual. (34%)

Image & Vision Computing (33%)

Organisations

Imperial College London (Lead Research Organisation)

People	ORCID iD
Maja Pantic (Principal Investigator)

Publications

Author Name

Title Publication Date Published

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Alabort-I-Medina J (2014) Bayesian Active Appearance Models

Alabort-I-Medina J (2017) A Unified Framework for Compositional Fitting of Active Appearance Models. in International journal of computer vision

Alabort-I-Medina J (2015) Unifying holistic and Parts-Based Deformable Model fitting

Alabort-I-Medina J (2015) Computer Vision - ECCV 2014 Workshops - Zurich, Switzerland, September 6-7 and 12, 2014, Proceedings, Part I

Antonakos E (2014) Automatic Construction of Deformable Models In-the-Wild

Antonakos E (2014) HOG active appearance models

Antonakos E (2015) Active Pictorial Structures

Antonakos E (2015) A survey on mouth modeling and analysis for Sign Language recognition

Antonakos E (2015) Feature-based Lucas-Kanade and active appearance models. in IEEE transactions on image processing : a publication of the IEEE Signal Processing Society

Asthana A (2015) From Pixels to Response Maps: Discriminative Image Filtering for Face Alignment in the Wild. in IEEE transactions on pattern analysis and machine intelligence

Asthana A (2014) Incremental Face Alignment in the Wild

Aung MSH (2016) The Automatic Detection of Chronic Pain-Related Expression: Requirements, Challenges and the Multimodal EmoPain Dataset. in IEEE transactions on affective computing

Babaguchi N (2012) Comparison of prediction-based fusion and feature-level fusion across different learning models

Bilakhia S (2013) Audiovisual Detection of Behavioural Mimicry

Bilakhia S (2015) The MAHNOB Mimicry Database: A database of naturalistic human interactions in Pattern Recognition Letters

Booth J (2016) A 3D Morphable Model Learnt from 10,000 Faces

Booth J (2017) 3D Face Morphable Models "In-the-Wild"

Booth J (2018) Large Scale 3D Morphable Models. in International journal of computer vision

Booth J (2014) Optimal UV spaces for facial morphable model construction

Bousmalis K (2015) Variational Infinite Hidden Conditional Random Fields. in IEEE transactions on pattern analysis and machine intelligence

Cheng S (2014) Real-time generic face tracking in the wild with CUDA

Cheng S (2017) Statistical non-rigid ICP algorithm and its application to 3D face alignment in Image and Vision Computing

Cheng S (2014) 3D facial geometric features for constrained local model

Cheng S (2018) 4DFAB: A Large Scale 4D Database for Facial Expression Analysis and Biometric Applications

Chrysos G (2015) Offline Deformable Face Tracking in Arbitrary Videos

Chrysos GG (2018) A Comprehensive Performance Evaluation of Deformable Face Tracking "In-the-Wild". in International journal of computer vision

Chugh A (2023) Comparative docking studies of drugs and phytocompounds for emerging variants of SARS-CoV-2. in 3 Biotech

Eleftheriadis S (2014) Advances in Visual Computing - 10th International Symposium, ISVC 2014, Las Vegas, NV, USA, December 8-10, 2014, Proceedings, Part II

Fotiadou E (2017) Temporal Archetypal Analysis for Action Segmentation

Georgakis C (2014) Visual-only discrimination between native and non-native speech

Georgakis C (2016) Discriminant Incoherent Component Analysis in IEEE Transactions on Image Processing

Georgakis C (2014) Visual-only Discrimination between Native and Non-Native Speech

Georgakis C (2018) Dynamic Behavior Analysis via Structured Rank Minimization. in International journal of computer vision

Guler R (2017) DenseReg: Fully Convolutional Dense Shape Regression In-the-Wild

Hua K (2014) Menpo

Hua K (2014) Discriminating Native from Non-Native Speech Using Fusion of Visual Cues

Jaimes A (2013) Human behavior sensing for tag relevance assessment

Jaimes A (2013) Bimodal log-linear regression for fusion of audio and visual features

Jiang B (2012) Facial Action Detection Using Block-Based Pyramid Appearance Descriptors

Jiang B (2014) Decision Level Fusion of Domain Specific Regions for Facial Action Recognition

Jiang B (2012) Facial Action Detection Using Block-Based Pyramid Appearance Descriptors

Jiang B (2014) A dynamic appearance descriptor approach to facial actions temporal modeling. in IEEE transactions on cybernetics

Kaltwang S (2015) Latent trees for estimating intensity of Facial Action Units

Kaltwang S (2012) Advances in Visual Computing

Liwicki S (2014) Full-Angle Quaternions for Robustly Matching Vectors of 3D Rotations

Liwicki S (2015) Online kernel slow feature analysis for temporal video segmentation and tracking. in IEEE transactions on image processing : a publication of the IEEE Signal Processing Society

Marras I (2017) A Joint Discriminative Generative Model for Deformable Model Construction and Classification

Marras I (2014) Online learning and fusion of orientation appearance models for robust rigid object tracking in Image and Vision Computing

Martinez B (2015) Facial landmarking for in-the-wild images with local inference based on global appearance in Image and Vision Computing

Key Findings
Impact Summary


Description	(a) Pain intensity, as shown in rehabilitation-related scenarios, can be automatically estimated from facial expressions with high Pearson correlation coefficient (CORR >= 0.5). This can be done either by firstly recognising facial actions (i.e. facial action units) underlying the expression of pain, or by estimating the intensity of facial expression of pain directly from the extent of changes in facial features such as the displacement of facial characteristic points. (b) The best results are achieved if accurate facial point trackers are used and facial point locations and displacements are used to represent changes in the observed facial expressions. (c) Discriminative machine learning approaches perform robustly for the target problem (i.e. pain intensity estimation) but cannot handle missing data, which is typical in real-world scenarios as occlusions and self-occlussions often occur. For this problem, it has been shown that a generative approach (i.e. newly-proposed Latent Trees) has a superior performance.
Exploitation Route	Some of the developed methodologies are publicly available in http://ibug.doc.ic.ac.uk/resources
Sectors	Digital/Communication/Information Technologies (including Software) Healthcare
URL	http://www.uclic.ucl.ac.uk/people/n.berthouze/EPain.html


Description	The consortium collected a large database of multimodal recordings of human behaviour in rehabilitation scenario in which they experienced pain while performing rehabilitation exercises. The database has been properly documented, annotated in terms of pain level as judged by human experts, and released according to ethical clearance guidelines. This database has a very large potential impact as it allows academics and scientists all over the world to study the problem of pain estimation by humans and machines based on various signals including facial expressions captured at a very high frequency and resolution.
First Year Of Impact	2015
Sector	Digital/Communication/Information Technologies (including Software),Healthcare
Impact Types	Societal

Abstract

Organisations

People

ORCID iD

Publications