Speeded Up Low-Rank Online Metric Learning for Object Tracking

Visual object tracking can be considered as an online procedure to adaptively measure the foreground object similarity itself. However, many previous works usually adopt a fixed metric or offline metric learning to evaluate this dynamic process; even with some online metric learning (OML) trackers, their models often suffer from overfitting issues. To overcome these deficiencies, we propose a self-supervised tracking method that incorporates adaptive metric learning and semisupervised learning into a unified framework. For similarity measurement, we design a new OML model via low-rank constraint to handle overfitting. In particular, we employ the max norm instead of the trace norm used in our previous work. This not only maintains the low-rank property to overcome overfitting, but also reduces the computational complexity from O(n³) to O(n²), such that the new model is more suitable for object tracking. Moreover, by associating the information from stored training templates with unlabeled testing samples, a bilinear graph is defined accordingly to propagate the label of each sample. High-confidence samples are then collected for self-training the model and updating the templates concurrently to handle large scale. Experiments on various benchmark data sets and comparisons to several state-of-the-art methods demonstrate the effectiveness and efficiency of our algorithm.