Benchmark three-dimensional eye-tracking dataset for visual saliency prediction on stereoscopic three-dimensional video

Amin Banitalebi-Dehkordi; Eleni Nasiopoulos; Mahsa T. Pourazad; Panos Nasiopoulos

doi:10.1117/1.JEI.25.1.013008

14 January 2016 Benchmark three-dimensional eye-tracking dataset for visual saliency prediction on stereoscopic three-dimensional video

Amin Banitalebi-Dehkordi, Eleni Nasiopoulos, Mahsa T. Pourazad, Panos Nasiopoulos

Author Affiliations +

Journal of Electronic Imaging, Vol. 25, Issue 1, 013008 (January 2016). https://doi.org/10.1117/1.JEI.25.1.013008

Abstract

Visual attention models (VAMs) predict the location of image or video regions that are most likely to attract human attention. Although saliency detection is well explored for two-dimensional (2-D) image and video content, there have been only a few attempts made to design three-dimensional (3-D) saliency prediction models. Newly proposed 3-D VAMs have to be validated over large-scale video saliency prediction datasets, which also contain results of eye-tracking information. There are several publicly available eye-tracking datasets for 2-D image and video content. In the case of 3-D, however, there is still a need for large-scale video saliency datasets for the research community for validating different 3-D VAMs. We introduce a large-scale dataset containing eye-tracking data collected from 61 stereoscopic 3-D videos (and also 2-D versions of those), and 24 subjects participated in a free-viewing test. We evaluate the performance of the existing saliency detection methods over the proposed dataset. In addition, we created an online benchmark for validating the performance of the existing 2-D and 3-D VAMs and facilitating the addition of new VAMs to the benchmark. Our benchmark currently contains 50 different VAMs.

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Amin Banitalebi-Dehkordi, Eleni Nasiopoulos, Mahsa T. Pourazad, and Panos Nasiopoulos "Benchmark three-dimensional eye-tracking dataset for visual saliency prediction on stereoscopic three-dimensional video," Journal of Electronic Imaging 25(1), 013008 (14 January 2016). https://doi.org/10.1117/1.JEI.25.1.013008

Published: 14 January 2016

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