Your search keyword '"Würtz RP"' showing total 3 results

1. Combining feature- and correspondence-based methods for visual object recognition.

Author

Westphal G and Würtz RP

Subjects

Algorithms, Computer Graphics, Humans, Image Interpretation, Computer-Assisted, Photic Stimulation, Reaction Time, Time Factors, Visual Pathways, Neural Networks, Computer, Pattern Recognition, Automated, Pattern Recognition, Visual physiology, Recognition, Psychology physiology

Abstract

We present an object recognition system built on a combination of feature- and correspondence-based pattern recognizers. The feature-based part, called preselection network, is a single-layer feedforward network weighted with the amount of information contributed by each feature to the decision at hand. For processing arbitrary objects, we employ small, regular graphs whose nodes are attributed with Gabor amplitudes, termed parquet graphs. The preselection network can quickly rule out most irrelevant matches and leaves only the ambiguous cases, so-called model candidates, to be verified by a rudimentary version of elastic graph matching, a standard correspondence-based technique for face and object recognition. According to the model, graphs are constructed that describe the object in the input image well. We report the results of experiments on standard databases for object recognition. The method achieved high recognition rates on identity and pose. Unlike many other models, it can also cope with varying background, multiple objects, and partial occlusion.

Published

2009

2. Image representation by complex cell responses.

Author

Wundrich IJ, von der Malsburg C, and Würtz RP

Subjects

Algorithms, Fourier Analysis, Models, Neurological, Nonlinear Dynamics, Image Processing, Computer-Assisted methods, Neurons physiology

Abstract

We present an analysis of the representation of images as the magnitudes of their transform with complex-valued Gabor wavelets. Such a representation is a model for complex cells in the early stage of visual processing and of high technical usefulness for image understanding, because it makes the representation insensitive to small local shifts. We show that if the images are band limited and of zero mean, then reconstruction from the magnitudes is unique up to the sign for almost all images.

Published

2004

3. Learning the Gestalt rule of collinearity from object motion.

Author

Prodöhl C, Würtz RP, and von der Malsburg C

Subjects

Motion Perception physiology, Photoreceptor Cells, Vertebrate physiology, Retina cytology, Retina physiology, Retinal Ganglion Cells physiology, Gestalt Theory, Models, Neurological, Neural Networks, Computer, Visual Cortex physiology

Abstract

The Gestalt principle of collinearity (and curvilinearity) is widely regarded as being mediated by the long-range connection structure in primary visual cortex. We review the neurophysiological and psychophysical literature to argue that these connections are developed from visual experience after birth, relying on coherent object motion. We then present a neural network model that learns these connections in an unsupervised Hebbian fashion with input from real camera sequences. The model uses spatiotemporal retinal filtering, which is very sensitive to changes in the visual input. We show that it is crucial for successful learning to use the correlation of the transient responses instead of the sustained ones. As a consequence, learning works best with video sequences of moving objects. The model addresses a special case of the fundamental question of what represents the necessary a priori knowledge the brain is equipped with at birth so that the self-organized process of structuring by experience can be successful.

Published

2003