An observation about circular shortest paths: Dealing with additional constraints using branch and bound


Autoria(s): Vallotton, P.; Lovell, D. R.; Newman, J.
Data(s)

2011

Resumo

Circular shortest paths represent a powerful methodology for image segmentation. The circularity condition ensures that the contour found by the algorithm is closed, a natural requirement for regular objects. Several implementations have been proposed in the past that either promise closure with high probability or ensure closure strictly, but with a mild computational efficiency handicap. Circularity can be viewed as a priori information that helps recover the correct object contour. Our "observation" is that circularity is only one among many possible constraints that can be imposed on shortest paths to guide them to a desirable solution. In this contribution, we illustrate this opportunity under a volume constraint but the concept is generally applicable. We also describe several adornments to the circular shortest path algorithm that proved useful in applications. © 2011 IEEE.

Identificador

http://eprints.qut.edu.au/79866/

Publicador

IEEE Computer Society

Relação

DOI:10.1109/DICTA.2011.92

Vallotton, P., Lovell, D. R., & Newman, J. (2011) An observation about circular shortest paths: Dealing with additional constraints using branch and bound. In Proceedings of 2011 Internation Conference on Digital Image Computing Techniques and Applications (DICTA), IEEE Computer Society, pp. 513-517.

Direitos

IEEE

Fonte

School of Electrical Engineering & Computer Science; Science & Engineering Faculty

Palavras-Chave #Circular shortest path #contour tracing #droplet detection #graph algorithms #Hessiann matrix #image analysis #image constraints #matrix #Algorithms #Linear programming #Wireless sensor networks #Graph theory
Tipo

Conference Paper