Multiple-gaze geometry: Inferring novel 3D locations from gazes observed in monocular video

Ernesto Brau, Jinyan Guan, Tanya Jeffries, Kobus Barnard; The European Conference on Computer Vision (ECCV), 2018, pp. 612-630

Abstract


We develop using person gaze direction for scene understanding. In particular, we use intersecting gazes to learn 3D locations that people tend to look at, which is analogous to having multiple camera views. The 3D locations that we discover need not be visible to the camera. Conversely, knowing 3D locations of scene elements that draw visual attention, such as other people in the scene, can help infer gaze direction. We provide a Bayesian generative model for the temporal scene that captures the joint probability of camera parameters, locations of people, their gaze, what they are looking at, and locations of visual attention. Both the number of people in the scene and the number of extra objects that draw attention are unknown and need to be inferred. To execute this joint inference we use a probabilistic data association approach that enables principled comparison of model hypotheses. We use MCMC for inference over the discrete correspondence variables, and approximate the marginalization over continuous parameters using the Metropolis-Laplace approximation, using Hamiltonian (Hybrid) Monte Carlo for maximization. As existing data sets do not provide the 3D locations of what people are looking at, we contribute a small data set that does. On this data set, we infer what people are looking at with 59% precision compared with 13% for a baseline approach, and where those objects are within about 0.58m.

Related Material


[pdf]
[bibtex]
@InProceedings{Brau_2018_ECCV,
author = {Brau, Ernesto and Guan, Jinyan and Jeffries, Tanya and Barnard, Kobus},
title = {Multiple-gaze geometry: Inferring novel 3D locations from gazes observed in monocular video},
booktitle = {The European Conference on Computer Vision (ECCV)},
month = {September},
year = {2018}
}