Title :
Scale-invariant medial features based on gradient vector flow fields
Author :
Engel, David ; Curio, Cristbal
Author_Institution :
Max Planck Inst. for Biol. Cybern.
Abstract :
We propose a novel set of medial feature interest points based on gradient vector flow (GVF) fields [18]. We exploit the long ranging GVF fields for symmetry estimation by calculating the flux flow on it. We propose interest points that are located on maxima of that flux flow and offer a straight forward way to estimate salient local scales. The features owe their robustness in clutter to the nature of the GVF which accomplishes two goals simultaneously - smoothing of orientation information and its preservation at salient edge boundaries. A learning framework based on them, in contrast to classical edge-based feature detectors, would unlikely be distracted by background clutter and spurious edges, as these new mid-level features are shape-centered. We evaluate our scale-invariant feature coding scheme against standard SIFT keypoints by demonstrating generalization over scale in a patch-based pedestrian detection task.
Keywords :
computer vision; edge detection; gradient methods; learning (artificial intelligence); smoothing methods; background clutter; computer vision; flux flow estimation; gradient vector flow field; learning framework; orientation information smoothing; salient edge boundary preservation; salient local scale estimation; scale-invariant medial feature interest point; Computer vision; Cost function; Detectors; Image coding; Image edge detection; Object detection; Object recognition; Robustness; Shape; Smoothing methods;
Conference_Titel :
Pattern Recognition, 2008. ICPR 2008. 19th International Conference on
Conference_Location :
Tampa, FL
Print_ISBN :
978-1-4244-2174-9
Electronic_ISBN :
1051-4651
DOI :
10.1109/ICPR.2008.4761373
