Abstract
For a long time pixel based segmentation methods were restricted to grayscale images due to the enormous computational costs when dealing with color. With the availability of more powerful computers it is nowadays possible to perform pixel based operations on real camera images even in the full color space. New adaptive classification tools like neural networks make it possible to develop special-purpose object detectors that can segment arbitrary objects in real images with a complex distribution in the feature space after training with one or several previously labelled image(s). The proposed adaptive segmentation method uses local color information to estimate the membership probability in the object resp. background class. The method is applied to the recognition and localization of human hands in color camera images of complex laboratory scenes. The paper focuses on the influence of the chosen color representation and a detailed comparison of the neural approach to standard statistical methods, a threshold filter, and a classifier based on normal distributions.
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References
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Littmann, E., Ritter, H. (1995). Neural and Statistical Methods for Adaptive Color Segmentation — A Comparison. In: Sagerer, G., Posch, S., Kummert, F. (eds) Mustererkennung 1995. Informatik aktuell. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-79980-8_10
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DOI: https://doi.org/10.1007/978-3-642-79980-8_10
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