A combined post-filtering method to improve accuracy of variational optical flow estimation
作者:
Highlights:
• We propose a multi-scale and nonlinear structure tensor based 3D spatial-scale Harris edge detector for edges of flow fields.
• We propose a novel hybrid gradient bilateral and Gaussian filter approach through a spatial-scale gradient signal-to-noise ratio segmentation.
• We present a segmentation method to classify the structure tensor elements into continuity and non-discontinuity regions.
• A piecewise occlusions detection approach is used to detect occlusions of the flow field.
• We propose a combined post-filtering method with the weighted median filter, bilateral filter, and the fast median filter.
摘要
•We propose a multi-scale and nonlinear structure tensor based 3D spatial-scale Harris edge detector for edges of flow fields.•We propose a novel hybrid gradient bilateral and Gaussian filter approach through a spatial-scale gradient signal-to-noise ratio segmentation.•We present a segmentation method to classify the structure tensor elements into continuity and non-discontinuity regions.•A piecewise occlusions detection approach is used to detect occlusions of the flow field.•We propose a combined post-filtering method with the weighted median filter, bilateral filter, and the fast median filter.
论文关键词:Optical flow,Combined post-filtering (CPF),Multi-scale nonlinear 3D structure tensor,Hybrid GBF and Gaussian Filter smoothing (HGBGF),Spatial-scale gradient signal-to-noise ratio (SNR)
论文评审过程:Received 11 July 2013, Revised 17 October 2013, Accepted 25 November 2013, Available online 11 December 2013.
论文官网地址:https://doi.org/10.1016/j.patcog.2013.11.026
