Your search keyword '"Emanuele, Salerno"' showing total 4 results

1. Nonlinear model identification and see-through cancelation from recto–verso data

Author

Anna Tonazzini, Emanuele Salerno, and Francesca Martinelli

Subjects

Pixel, business.industry, Computer science, See-through cancellation, Linear model, Residual, Grayscale, Computer Science Applications, Nonlinear system, Data model, I.7.5 Document analysis, Pattern recognition (psychology), Computer vision, Document image processing, Computer Vision and Pattern Recognition, Artificial intelligence, Nonlinear image models, business, Algorithm, Software, Free parameter

Abstract

The problem of see-through cancelation in digital images of double-sided documents is addressed. We show that a nonlinear convolutional data model proposed elsewhere for moderate show-through can also be effective on strong back-to-front interferences, provided that the recto and verso pure patterns are estimated jointly. To this end, we propose a restoration algorithm that does not need any classification of the pixels. The see-through PSFs are estimated off-line, and an iterative procedure is then employed for a joint estimation of the pure patterns. This simple and fast algorithm can be used on both grayscale and color images and has proved to be very effective in real-world cases. The experimental results we report in this paper demonstrate that our algorithm outperforms the ones based on linear models with no need to tune free parameters and remains computationally inexpensive despite the nonlinear model and the iterative solution adopted. Strategies to overcome some of the residual difficulties are also envisaged.

Published

2012

2. Fast correction of bleed-through distortion in grayscale documents by a blind source separation technique

Author

Luigi Bedini, Anna Tonazzini, and Emanuele Salerno

Subjects

business.industry, Computer science, Speech recognition, Bleed, Legibility, Independent component analysis, Grayscale, Blind signal separation, Computer Science Applications, Distortion, Pattern recognition (psychology), I.4.4 Restoration, Source separation, Blind source separation, Computer vision, Computer Vision and Pattern Recognition, Artificial intelligence, business, Software

Abstract

Ancient documents are usually degraded by the presence of strong background artifacts. These are often caused by the so-called bleed-through effect, a pattern that interferes with the main text due to seeping of ink from the reverse side. A similar effect, called show-through and due to the nonperfect opacity of the paper, may appear in scans of even modern, well-preserved documents. These degradations must be removed to improve human or automatic readability. For this purpose, when a color scan of the document is available, we have shown that a simplified linear pattern overlapping model allows us to use very fast blind source separation techniques. This approach, however, cannot be applied to grayscale scans. This is a serious limitation, since many collections in our libraries and archives are now only available as grayscale scans or microfilms. We propose here a new model for bleed-through in grayscale document images, based on the availability of the recto and verso pages, and show that blind source separation can be successfully applied in this case too. Some experiments with real-ancient documents are presented and described.

Published

2006

3. Recovery of archaeological wall paintings using novel multispectral imaging approaches

Author

Vincenzo Palleschi, Stefano Legnaioli, Emanuele Salerno, Giulia Lorenzetti, Anna Tonazzini, G. H. Cavalcanti, Emanuela Grifoni, Luciano Marras, Gianna Giachi, and Pasquino Pallecchi

Subjects

Multispectral imaging, Archeology, Painting, Archaeology, Channel (digital image), Multispectral image, Conservation, Spectral bands, Chromatic scale, Wall paintings, Rgb image

Abstract

New approaches in the application of multispectral imaging to the recovery of archeological wall paintings are presented, based on statistical techniques and on a novel method of image treatment (Chromatic Derivative Imaging – ChromaDI) which offers a way of embedding information coming from four spectral bands into a standard RGB image. The methods are applied to some wall paintings from the Tomb of the Monkey, an Etruscan tomb in the necropolis of Poggio Renzo, near the city of Chiusi (Siena), Italy, dated around 480-470 BC. It is shown that the techniques described are able to highlight and enhance a number of details that cannot be perceived in either any of the original channel images or any single processed output channel.

Published

2013

4. Independent component analysis for document restoration

Author

Emanuele Salerno, Anna Tonazzini, and Luigi Bedini

Subjects

business.industry, Computer science, Speech recognition, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Image registration, Pattern recognition, Optical character recognition, computer.software_genre, Legibility, Independent component analysis, Blind signal separation, Computer Science Applications, Adaptive filter, Digital image, Source separation, Computer Vision and Pattern Recognition, Artificial intelligence, business, computer, Software

Abstract

We propose a novel approach to restoring digital document images, with the aim of improving text legibility and OCR performance. These are often compromised by the presence of artifacts in the background, derived from many kinds of degradations, such as spots, underwritings, and show-through or bleed-through effects. So far, background removal techniques have been based on local, adaptive filters and morphological-structural operators to cope with frequent low-contrast situations. For the specific problem of bleed-through/show-through, most work has been based on the comparison between the front and back pages. This, however, requires a preliminary registration of the two images. Our approach is based on viewing the problem as one of separating overlapped texts and then reformulating it as a blind source separation problem, approached through independent component analysis techniques. These methods have the advantage that no models are required for the background. In addition, we use the spectral components of the image at different bands, so that there is no need for registration. Examples of bleed-through cancellation and recovery of underwriting from palimpsests are provided.

Published

2004