Constant-time algorithm for computing the Euclidean distance maps of binary images on 2D meshes with reconfigurable buses

The computation of Euclidean distance maps (EDM), also called Euclidean distance transform, is a basic operation in computer vision, pattern recognition, and robotics. Fast computation of the EDM is needed since most of the applications using the EDM require real-time computation. It is shown in L....

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Published in	Information sciences Vol. 120; no. 1; pp. 209 - 221
Main Authors	Pan, Yi, Li, Keqin
Format	Journal Article
Language	English
Published	Elsevier Inc 1999
Subjects	Euclidean distance maps Image analysis Reconfigurable mesh VLSI Euclidean distance maps Image analysis Reconfigurable mesh VLSI
Online Access	Get full text
ISSN	0020-0255 1872-6291
DOI	10.1016/S0020-0255(99)00084-5

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Abstract	The computation of Euclidean distance maps (EDM), also called Euclidean distance transform, is a basic operation in computer vision, pattern recognition, and robotics. Fast computation of the EDM is needed since most of the applications using the EDM require real-time computation. It is shown in L. Chen and H.Y.H. Chuang [Information Processing Letters, 51, pp. 25–29 (1994)] that a lower bound Ω(n 2) is required for any sequential EDM algorithm due to the fact that in any EDM algorithm each of the n 2 pixels has to be scanned at least once. Recently, many parallel EDM algorithms have been proposed to speedup its computation. Chen and Chuang proposed an algorithm for computing the EDM on an n×n mesh in O(n) time [L. Chen and H.Y.H. Chuang Parallel Computing, 21, pp. 841–852 (1995)]. Clearly, the VLSI complexities of both the sequential and the mesh algorithm described in L. Chen and H.Y.H. Chuang [Parallel Computing, 21, pp. 841–852 (1995)] are AT 2= O(n 4) , where A is the VLSI layout area of the design and T is the computation time using area A when implemented in VLSI. In this paper, we propose a new and faster parallel algorithm for computing the EDM problem on the reconfigurable VLSI mesh model. For the same problem, our algorithm runs in O(1) time on a two-dimensional n 2×n 2 reconfigurable mesh. We show that the VLSI complexity of our algorithm is the same as those of the above sequential algorithm and the mesh algorithm, while it uses much less time. To our best knowledge, this is the first constant-time EDM algorithm on any parallel computational model.
AbstractList	The computation of Euclidean distance maps (EDM), also called Euclidean distance transform, is a basic operation in computer vision, pattern recognition, and robotics. Fast computation of the EDM is needed since most of the applications using the EDM require real-time computation. It is shown in L. Chen and H.Y.H. Chuang [Information Processing Letters, 51, pp. 25–29 (1994)] that a lower bound Ω(n 2) is required for any sequential EDM algorithm due to the fact that in any EDM algorithm each of the n 2 pixels has to be scanned at least once. Recently, many parallel EDM algorithms have been proposed to speedup its computation. Chen and Chuang proposed an algorithm for computing the EDM on an n×n mesh in O(n) time [L. Chen and H.Y.H. Chuang Parallel Computing, 21, pp. 841–852 (1995)]. Clearly, the VLSI complexities of both the sequential and the mesh algorithm described in L. Chen and H.Y.H. Chuang [Parallel Computing, 21, pp. 841–852 (1995)] are AT 2= O(n 4) , where A is the VLSI layout area of the design and T is the computation time using area A when implemented in VLSI. In this paper, we propose a new and faster parallel algorithm for computing the EDM problem on the reconfigurable VLSI mesh model. For the same problem, our algorithm runs in O(1) time on a two-dimensional n 2×n 2 reconfigurable mesh. We show that the VLSI complexity of our algorithm is the same as those of the above sequential algorithm and the mesh algorithm, while it uses much less time. To our best knowledge, this is the first constant-time EDM algorithm on any parallel computational model. The computation of Euclidean distance maps (EDM), also called Euclidean distance transform, is basic operation in computer vision, pattern recognition, and robotics. Fast computation of the EDM is needed since most applications using the EDM require real-time computation. A parallel algorithm for computing the EDM problem on the reconfigurable VLSI mesh model is proposed. The algorithm runs in O(1) time on a two-dimensional n super(2)xn super(2) reconfigurable mesh. It is shown that the VLSI complexity of the algorithm is the same as those of the sequential algorithm and the mesh algorithm, while it uses less time.
Author	Li, Keqin Pan, Yi
Author_xml	– sequence: 1 givenname: Yi surname: Pan fullname: Pan, Yi email: pan@cps.udayton.edu, li@mcs.newpaltz.edu organization: Computer Science Department, University of Dayton, Dayton, OH 45469-2160, USA – sequence: 2 givenname: Keqin surname: Li fullname: Li, Keqin organization: Department of Mathematics and Computer Science, State University of New York, New Paltz, New York, NY 12561-2499, USA
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Cites_doi	10.1016/0146-664X(80)90054-4 10.1016/0020-0190(94)00062-X 10.1016/0020-0190(92)90197-4 10.1007/BF01759067 10.1016/0167-8655(96)00017-7 10.1016/0167-8191(94)00103-H 10.1006/cviu.1996.0002 10.1109/5.92038 10.1142/S0129626492000477 10.7551/mitpress/1102.003.0014 10.1016/0020-0190(96)00049-X 10.1142/S0129626491000185 10.1006/cviu.1997.0539
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Snippet	The computation of Euclidean distance maps (EDM), also called Euclidean distance transform, is a basic operation in computer vision, pattern recognition, and... The computation of Euclidean distance maps (EDM), also called Euclidean distance transform, is basic operation in computer vision, pattern recognition, and...
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SubjectTerms	Euclidean distance maps Image analysis Reconfigurable mesh VLSI
Title	Constant-time algorithm for computing the Euclidean distance maps of binary images on 2D meshes with reconfigurable buses
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