Discriminative Correlation Filters (DCF) are efficient in visual tracking but suffer from unwanted boundary effects. Spatially Regularized DCF (SRDCF) has been suggested to resolve this issue by enforcing spatial penalty on DCF coefficients, which, inevitably, improves the tracking performance at the price of increasing complexity. To tackle online updating, SRDCF formulates its model on multiple training images, further adding difficulties in improving efficiency. In this work, by introducing temporal regularization to SRDCF with single sample, we present our spatial-temporal regularized correlation filters (STRCF). Motivated by online Passive-Agressive (PA) algorithm, we introduce the temporal regularization to SRDCF with single sample, thus resulting in our spatial-temporal regularized correlation filters (STRCF). The STRCF formulation can not only serve as a reasonable approximation to SRDCF with multiple training samples, but also provide a more robust appearance model than SRDCF in the case of large appearance variations. Besides, it can be efficiently solved via the alternating direction method of multipliers (ADMM). By incorporating both temporal and spatial regularization, our STRCF can handle boundary effects without much loss in efficiency and achieve superior performance over SRDCF in terms of accuracy and speed. Experiments are conducted on three benchmark datasets: OTB-2015, Temple-Color, and VOT-2016. Compared with SRDCF, STRCF with hand-crafted features provides a 5 times speedup and achieves a gain of 5.4% and 3.6% AUC score on OTB-2015 and Temple-Color, respectively. Moreover, STRCF combined with CNN features also performs favorably against state-of-the-art CNN-based trackers and achieves an AUC score of 68.3% on OTB-2015.
翻译:在网上更新,SRDCF在多个培训图像上制定了自己的模型,在提高效率方面又增加了困难。在这项工作中,通过单一样本向SRDCF引入时间规范化的SRCF(STRCF)过滤器(STRCF),我们展示了我们的空间-时间常规化的SRDCF(STRCF)过滤器(STRCF),通过在线被动-递增(PA)算法,我们用单一样本向SRDCF(SRDF)引入时间规范化的DCFF(SRDCF)特性来解决这一问题,从而不可避免地以日益复杂得多的价格改进跟踪性能。为了解决在线更新,SRDFF(DC)在多个样本中引入时间规范化的SRFCFC(S-RFCF) 常规化(S-RCFCF) 功能化(O-SRCF) 功能化(O-RDF) 功能化(O-CFCFR) 和(O-RFCFCFS-S-CFRal-SL) 成本化(O-SDRal-S-SlevCFralder) 成本(O) 和(ODRaldal-lational-lationalalality) 3) 性能(O) 性能能(O-SD) 性能(O-lationality) 功能变换代码(O) 和(SD) 性能能能(OD) 性能(SDFDFD),不达到更高性能(SD),不达到SDF) ) 和(S-SDFDFDFDMDSD) 3) 的比、SDFDFD) 性能,不及性能,不高,不高,不及性能性能,不及性能。,不及性能,在SDFCFCFCFCFCFCFCFCFCFCFCFCFCFCFCFCFCFCFCFCFCFCFCFCFCFCFCFCF