Paper Info
Title
A statistical method for line segment detection
Abstract
Voting in each column around an initial peak is considered to be a random variable.The optimal ¿ is determined by fitting and minimizing a 2nd-order curve.The optimal ¿ is determined by fitting and interpolating a sine curve.We calculate voting boundaries instead of searching for non-zero voting cells.The endpoint coordinates are determined by fitting instead of by solving equations. Line segment detection is a fundamental procedure in computer vision, pattern recognition, or image analysis applications. This paper proposes a statistical method based on the Hough transform for line segment detection by considering quantization error, image noise, pixel disturbance, and peak spreading, also taking the choice of the coordinate origin into account.A random variable is defined in each column in a peak region. Statistical means and statistical variances are calculated; the statistical non-zero cells are analyzed and computed. The normal angle is determined by minimizing the function which fits the statistical variances; the normal distance is calculated by interpolating the function which fits the statistical means. Endpoint coordinates of a detected line segment are determined by fitting a sine curve (rather than searching for the first and last non-zero voting cells, and solving equations containing coordinates of such cells).Experimental results on simulated data and real world images validate the performance of the proposed method for line segment detection.
Year
DOI
Venue
2015
10.1016/j.cviu.2015.05.008
Computer Vision and Image Understanding
Keywords
Field
DocType
Hough transform,Statistical analysis,Endpoint specification,Fitting and interpolation
Line segment,Random variable,Interpolation,Artificial intelligence,Computer vision,Mathematical optimization,Algorithm,Hough transform,Image noise,Pixel,Quantization (signal processing),Sine wave,Mathematics
Journal
Volume
Issue
ISSN
138
C
1077-3142
Citations 
PageRank 
References 
8
0.48
31
Authors
3
Name
Order
Citations
PageRank
Zezhong Xu1667.12
Bok-Suk Shin2689.27
Reinhard Klette31743228.94