Eye Movement Analysis for Activity Recognition Using Electrooculography

Bulling, Andreas; Ward, Jamie A.; Gellersen, Hans; Tröster, Gerhard

doi:10.1109/tpami.2010.86

Cited by 595 publications

(386 citation statements)

References 43 publications

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“…The three classifiers: DT, ANN and SVM, are learned for activity recognition [26], where SVM shows a stable performance compared to others. Finally, an interesting approach on eye movement based activity recognition applies SVM in order to classify six static activities such as browsing a web and reading a printed paper [27].…”

Section: Related Workmentioning

confidence: 99%

“…Feature selection techniques have been applied in the activity recognition problem to select significant and discriminant subset of features [13,27,31,44]. Minimum Redundancy Maximum Relevance (mRMR) can be used to select the best feature subset for target classes, then SVM is used for the classification of activities [27].…”

Section: Related Workmentioning

confidence: 99%

“…Minimum Redundancy Maximum Relevance (mRMR) can be used to select the best feature subset for target classes, then SVM is used for the classification of activities [27]. The mRMR and Information Gain (IG) methods are applied for feature selection and then four classifiers SVM, LogitBoost, Bayes Belief Networks and ANN are compared for recognition of activities [31], where LogitBoost proves to be better among the four due to its ability of generating a stronger classifier by combining the several weak classifiers.…”

Section: Related Workmentioning

confidence: 99%

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Activity recognition in smart homes with self verification of assignments

2015

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This is the accepted version of the paper.This version of the publication may differ from the final published version. Permanent repository link AbstractActivity recognition in smart homes provides valuable benefits in the field of health and elderly care by remote monitoring of patients. In health care, capabilities of both performing the correct recognition and reducing the wrong assignments are of high importance. The novelty of the proposed activity recognition approach lies in being able to assign a category to the incoming activity, while measuring the confidence score of the assigned category that reduces the false positives in the assignments. Multiple sensors deployed at different locations of a smart home are used for activity observations. For multi-class activity classification, we propose a binary solution using support vector machines, which simplifies the problem to correct/incorrect assignments. We obtain the confidence score of each assignment by estimating the activity distribution within each class such that the assignments with low confidence are separated for further investigation by a human operator. The proposed approach is evaluated using a comprehensive performance evaluation metrics. Experimental results obtained from nine publicly available smart home datasets demonstrate a better performance of the proposed approach compared to the state of the art.

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Section: Related Workmentioning

confidence: 99%

Section: Related Workmentioning

confidence: 99%

Section: Related Workmentioning

confidence: 99%

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Activity recognition in smart homes with self verification of assignments

2015

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“…The hypothesis identified is by using head movements recognition or face recognition method difficulty of scroll down pages issues could be solved The problem as identified is that the differently-abled personnel, especially people with various amputations face the issue of not being able to use the devices that allow them to access e-content properly (Bulling, et al, 2011). This is due to the fact that almost all these devices use input devices such as keyboards, mice or touch screens.…”

Section: Introductionmentioning

confidence: 99%

Use of image processing to easy e-content reader for physically differently-abled personnel

2017

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identified and tracked in real-time to use their actions for scrolling events. The basic strategy for detection is fast extraction of the face of the image in front of the screen with image processing technology. Between-the-Eyes is selected as a face representative because of its features are common to most people and is easily seen for a varied range of face orientation.After identifying the face, the head movement is used to trigger the scrolling event based on the suggested proposed system

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“…The different computer eye-tracking methods that exists today can be classified into two main paradigms depending on the method used to perform the tracking: electro-oculography (EOG) [6,7,8,9,10,11] and videooculography (VOG). EOG computes the eye position by measuring the potential difference between the cornea and the most internal choroid layer (known as Brunch's membrane).…”

Section: Introductionmentioning

confidence: 99%

Markerless monocular tracking system for guided external eye surgery

Monserrat

Rupérez

Alcañíz

et al. 2014

Computerized Medical Imaging and Graphics

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ElsevierMonserrat Aranda, C.; Rupérez Moreno, MJ.; Alcañiz Raya, ML.; Mataix, J. (2014 AbstractThis paper presents a novel markerless monocular tracking system aimed at guiding ophthalmologists during external eye surgery. This new tracking system performs a very accurate tracking of the eye by detecting invariant points using only textures that are present in the sclera, i.e., without using traditional features like the pupil and/or cornea reflections, which remain partially or totally occluded in most surgeries. Two known algorithms that compute invariant points and correspondences between pairs of images were implemented in our system: Scalable Invariant Feature Transforms (SIFT) and Speed Up Robust Features (SURF). The results of experiments performed on phantom eyes show that, with either algorithm, the developed system tracks a sphere at a 360 o rotation angle with an error that is lower than 0.5%. Some experiments have also been carried out on images of real eyes showing promising behavior of the system in the presence of blood or surgical instruments during real eye surgery.

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Eye Movement Analysis for Activity Recognition Using Electrooculography

Cited by 595 publications

References 43 publications

Activity recognition in smart homes with self verification of assignments

Activity recognition in smart homes with self verification of assignments

Use of image processing to easy e-content reader for physically differently-abled personnel

Markerless monocular tracking system for guided external eye surgery

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