Title :
Directional analysis of images in scale space
Author :
Liu, Zhi-Qiang ; Rangayyan, Rangaraj M. ; Frank, Cyril B.
Author_Institution :
Calgary Univ., Alta., Canada
fDate :
11/1/1991 12:00:00 AM
Abstract :
The authors propose a computational technique for the directional analysis of piecewise linear patterns in images based on the notion of zero crossings in gradient images. A given image is preprocessed by a sequence of filters that are second derivatives of 2-D Gaussian functions with different scales. This gives a set of zero-crossing maps (the scale space) from which a stability map is generated. Significant linear patterns are detected from measurements on the stability map. Information regarding orientation of the linear patterns in the image and the area covered by the patterns in specific directions is then computed. The performance of the method is illustrated through applications to a simple test image made up of straight bar patterns as well as to scanning electron microscope images of collagen fibrils in rabbit ligaments. The method has significant applications in quantitative analysis of ligament healing and in comparison of treatment methods for ligament injuries
Keywords :
biology computing; computer vision; filtering and prediction theory; 2-D Gaussian functions; collagen fibrils; directional analysis; gradient images; ligament healing; ligament injuries; orientation; piecewise linear patterns; rabbit ligaments; scale space images; scanning electron microscope images; stability map; treatment methods; zero crossings; Filters; Image analysis; Injuries; Ligaments; Pattern analysis; Piecewise linear techniques; Rabbits; Scanning electron microscopy; Stability; Testing;
Journal_Title :
Pattern Analysis and Machine Intelligence, IEEE Transactions on
