RT Journal Article
A1 Zelinsky, Gregory
A1 Sherman, Ashley
A1 Yago, Tomás
T1 Simulating multiple object tracking performance using a Kalman filter model
JF Journal of Vision
JO JOV
YR 2015
DO 10.1167/15.12.465
JF Journal of Vision
VO 15
IS 12
SP 465
OP 465
SN 1534-7362
AB Although previous work has debated whether motion extrapolation is used in multiple object tracking (MOT), here we show that a Kalman filter-based model of motion prediction can simulate tracking accuracy on a trial-by-trial basis. Behavioral data were collected in two experiments manipulating trial duration (exp 1; 4-12s at 8°/s) and item speed (exp 2; 5-11°/s at 8s). In each experiment observers tracked 4 of 10 moving discs. Consistent with previous findings, tracking performance was found to vary with both speed and duration (both p < .001). Our model attaches an independent Kalman filter to each target disc at the start of a motion sequence. At each time step of the simulation, each filter predicts the position and velocity of its associated disc, then decides new assignments of filters to discs probabilistically based on predicted positions and velocities and all observed disc positions. We define a 2D Gaussian distribution per filter, with the mean equal to the predicted position, and a covariance matrix that maximizes the probability-density-function in the direction of the predicted velocity. A disc is attached to the filter with a probability based on the pdf evaluated at the disc’s position, with tracking errors resulting when a filter becomes incorrectly attached to a non-target. The disks associated with filters at the end of each simulation are considered the items selected as targets. Accuracy is defined as the percentage of correctly selected targets. The model captured the behavioral decrease in tracking accuracy with both increasing trial duration (exp 1; p < .001) and increasing disc speed (exp 2; p < .001), although predicted accuracy in exp 2 was slightly higher than what was found in the behavioral data (p = .05). We conclude that motion prediction, simulated here by simple Kalman filters, can describe tracking accuracy in two widely-studied MOT tasks. Meeting abstract presented at VSS 2015
RD 10/19/2019
UL https://doi.org/10.1167/15.12.465