Danker, A.J.[Alan J.],
Rosenfeld, A.[Azriel],
Strip Detection Using Relaxation,
PR(12), No. 2, 1980, pp. 97-100.
Elsevier DOI Parallel sided strips, anti-parallel edges.
BibRef
8000
Ponce, J.[Jean],
On Characterizing Ribbons and Finding Skewed Symmetries,
CVGIP(52), No. 3, December 1990, pp. 328-340.
Elsevier DOI
BibRef
9012
Earlier:
CRA89(49-54).
BibRef
And:
Ribbons, Symmetries and Skewed Symmetries,
DARPA88(1074-1079).
Follow on to Rosenfeld. Blum, Brooks, and Brady ribbons. Blum and Brady are
not Brooks ribbons.
BibRef
Bhattacharya, P.[Prabir],
Rosenfeld, A.[Azriel],
Polygons in Three Dimensions,
JVCIR(5), 1994, pp. 139-147.
BibRef
9400
Bhattacharya, P.[Prabir],
Rosenfeld, A.[Azriel],
Contour Codes of Isothetic Polygons,
CVGIP(50), No. 3, June 1990, pp. 353-363.
Elsevier DOI
BibRef
9006
Bhattacharya, P.[Prabir],
Rosenfeld, A.[Azriel],
Polygonal Ribbons in Two and Three Dimensions,
PR(28), No. 5, May 1995, pp. 769-779.
Elsevier DOI Each pair intersects in a common side.
BibRef
9505
Ylä-Jääski, A.[Antti],
Ade, F.,
Grouping Symmetrical Structures for Object Segmentation and Description,
CVIU(63), No. 3, May 1996, pp. 399-417.
DOI Link
9606
BibRef
Earlier:
Line Segment Ribbons and Their Grouping,
ICPR92(I:750-754).
IEEE DOI
BibRef
Kerckhove, M.,
A Shape Metric for Blum Ribbons,
JMIV(11), No. 2, October 1999, pp. 137-176.
DOI Link
BibRef
9910
Marchand-Maillet, S.[Stéphane],
Sharaiha, Y.M.[Yazid M.],
Skeleton Location and Evaluation Based on Local Digital Width in
Ribbon-Like Images,
PR(30), No. 11, November 1997, pp. 1855-1865.
Elsevier DOI
9801
BibRef
Milun, E.H.[Elyse H.],
Walters, D.K.W.[Deborah K. W.],
Li, Y.M.[Yi-Ming],
Atanacio, B.[Bemina],
General Ribbons: A Model for Stylus-Generated Images,
CVIU(76), No. 3, December 1999, pp. 259-266.
DOI Link
0001
BibRef
Milun, E.H.[Elyse H.],
Walters, D.K.W.[Deborah K. W.],
Li, Y.M.[Yi-Ming],
General Ribbon-Based Thinning Algorithms for Stylus-Generated Images,
CVIU(76), No. 3, December 1999, pp. 267-277.
DOI Link
0001
BibRef
Zou, J.J.[Ju Jia],
Yan, H.[Hong],
Skeletonization of ribbon-like shapes based on regularity and
singularity analyses,
SMC-B(31), No. 3, June 2001, pp. 401-407.
IEEE Top Reference.
0108
BibRef
Zhu, Z.X.[Zong-Xiao],
Wang, G.Y.[Guo-You],
Liu, J.G.[Jian-Guo],
Chen, Z.[Zhong],
Fast and Robust 2D-Shape Extraction Using Discrete-Point Sampling and
Centerline Grouping in Complex Images,
IP(22), No. 12, 2013, pp. 4762-4774.
IEEE DOI
1312
computational geometry.
feature points, line segments, and centerlines
BibRef
Lewandowicz, E.[Elzbieta],
Flisek, P.[Pawel],
A Method for Generating the Centerline of an Elongated Polygon on the
Example of a Watercourse,
IJGI(9), No. 5, 2020, pp. xx-yy.
DOI Link
2005
BibRef
Huang, Q.,
Stockman, G.C.,
Generalized Tube Model:
Recognizing 3D Elongated Objects from 2D Intensity Images,
CVPR93(104-109).
IEEE DOI Tubes are elongated objects (ribbons?)
BibRef
9300
Brooks, R.A.,
Goal-Directed Edge Linking and Ribbon Finding,
DARPA79(72-78).
BibRef
7900
Chapter on 2-D Feature Analysis, Extraction and Representations, Shape, Skeletons, Texture continues in
Processing and Analysis of Binary (Two Level) Images .