G. Vernazza scite author profile

In the field of pattern recognition, multiple classifier systems based on the combination of outputs of a set of different classifiers have been proposed as a method for the development of high performance classification systems. In this paper, the problem of design of multiple classifier system is discussed. Six design methods based on the so-called “overproduce and choose“ paradigm are described and compared by experiments. Although these design methods exhibited some interesting features, they do not guarantee to design the optimal multiple classifier system for the classification task at hand. Accordingly, the main conclusion of this paper is that the problem of the optimal MCS design still remains ope

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Detection of land-cover transitions by combining multidate classifiers

Bruzzone

Cossu

Vernazza

2004

Pattern Recognition Letters

105

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Image stabilization algorithms for video-surveillance applications

Marcenaro

Vernazza²,

Regazzoni³

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Combining parametric and non-parametric algorithms for a partially unsupervised classification of multitemporal remote-sensing images

2002

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Nonlinear image labeling for multivalued segmentation

Dellepiane

Fontana

Vernazza

1996

IEEE Trans. on Image Process.

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We describe a framework for multivalued segmentation and demonstrate that some of the problems affecting common region-based algorithms can be overcome by integrating statistical and topological methods in a nonlinear fashion. We address the sensitivity to parameter setting, the difficulty with handling global contextual information, and the dependence of results on analysis order and on initial conditions. We develop our method within a theoretical framework and resort to the definition of image segmentation as an estimation problem. We show that, thanks to an adaptive image scanning mechanism, there is no need of iterations to propagate a global context efficiently. The keyword multivalued refers to a result property, which spans over a set of solutions. The advantage is twofold: first, there is no necessity for setting a priori input thresholds; secondly, we are able to cope successfully with the problem of uncertainties in the signal model. To this end, we adopt a modified version of fuzzy connectedness, which proves particularly useful to account for densitometric and topological information simultaneously. The algorithm was tested on several synthetic and real images. The peculiarities of the method are assessed both qualitatively and quantitatively.

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G. Vernazza

Methods for Designing Multiple Classifier Systems

Detection of land-cover transitions by combining multidate classifiers

Image stabilization algorithms for video-surveillance applications

Combining parametric and non-parametric algorithms for a partially unsupervised classification of multitemporal remote-sensing images

Nonlinear image labeling for multivalued segmentation

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