Depth Compensation Model for Gaze Estimation in Sport Analysis

Fabricio Batista Narcizo, Dan Witzner Hansen

Publikation: Konference artikel i Proceeding eller bog/rapport kapitelKonferencebidrag i proceedingsForskningpeer review

Abstract

A depth compensation model is presented as a novel approach to reduce the effects of parallax error for head-mounted eye trackers. The method can reduce the parallax error when the distance between the user and the target is prior known. The model is geometrically presented and its performance is tested in a totally controlled environment with aim to check the influences of eye tracker parameters and ocular biometric parameters on its behavior. We also present a gaze estimation method based on epipolar geometry for binocular eye tracking setups. The depth compensation model has shown very promising to the field of eye tracking. It can reduce 10 times less the influence of parallax error in multiple depth planes.
OriginalsprogEngelsk
Titel2015 IEEE International Conference on Computer Vision Workshop (ICCVW)
Antal sider8
ForlagIEEE Professional Communication Society
Publikationsdato17 dec. 2015
Sider788-795
DOI
StatusUdgivet - 17 dec. 2015
BegivenhedIEEE International Workshop on Computer Vision in Sports - Santiago, Chile
Varighed: 17 dec. 201517 dec. 2015
Konferencens nummer: 2nd

Workshop

WorkshopIEEE International Workshop on Computer Vision in Sports
Nummer2nd
Land/OmrådeChile
BySantiago
Periode17/12/201517/12/2015

Emneord

  • Depth compensation
  • Parallax error
  • Head-mounted eye trackers
  • Geometric modeling
  • Gaze estimation
  • Epipolar geometry
  • Binocular eye tracking
  • Ocular biometric parameters
  • Tracking accuracy
  • Controlled environment

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