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2. Poly(I:C) promotes the production of IL-17A by murine CD1d-driven invariant NKT cells in airway inflammation

Author

A, Vultaggio, F, Nencini, S, Pratesi, G, Petroni, S, Romagnani, and E, Maggi

Subjects
Inflammation, Mice, Poly I-C, Interleukin-17, Immunology, Animals, Humans, Natural Killer T-Cells, Immunology and Allergy, Galactosylceramides, Antigens, CD1d, Bronchoalveolar Lavage Fluid, Asthma
Abstract

IL-17A is associated with different asthma phenotypes as virus-associated or steroid-resistant asthma. Invariant natural killer T (iNKT) cells play an important role in the pathogenesis of asthma. The aim of the study was to evaluate the activity of polyinosinic-polycytidylic acid [poly(I:C)] on IL-17A production by CD1d-activated iNKT cells.We analysed the in vitro effect of poly(I:C) on the release of IL-17A by spleen and lung CD1d-activated iNKT cells with α-galactosylceramide (α-GalCer). Its activity was also investigated in an α-GalCer-induced murine models, including lung inflammation. The inhibition of IL-17A by Toll-like receptor (TLR) 7 agonists in the same in vitro and in vivo models has been analysed.Poly(I:C) upregulated the in vitro IL-17A production by CD1d-activated NK1.1- CD4- iNKT subset, without modifying type 1 and type 2 cytokines. The two stimuli selectively upregulated IL-17A serum levels in vivo. Their intratracheal administration resulted in increased airway hyper-reactivity (AHR), neutrophilia in bronchoalveolar lavage and airway inflammation, which were inhibited by anti-IL-17A antibody. Poly(I:C) effects were attributable to IL1β and IL-23 release from dendritic cells, as showed by inhibition with neutralizing antibodies. TLR7 agonists inhibited the IL-17A production by poly(I:C) plus α-GalCer in the same models. Such effect was associated with the increased production by DC of IL-17A-inhibiting cytokines and the dampening of IL-1β and IL-23.Synthetic dsRNA selectively expand a CD1d-driven IL-17A-producing iNKT cell subset, thus explaining the worsening of airway inflammation by some viral infections. TLR3- and TLR7-triggering viral sequences can exert variable and opposite effects on adaptive immune response.

Published
2012

3. Hypercomplex Quality Assessment of Multi/Hyperspectral Images

Author

F. Nencini and Andrea Garzelli

Subjects
Hypercomplex number, Pixel, Correlation coefficient, Computer science, business.industry, Image quality, Distortion (optics), Multispectral image, image quality assessment, Hyperspectral imaging, Hypercomplex correlation coefficient (CC), hypercomplex number, spectral distortion, Geotechnical Engineering and Engineering Geology, Computer Science::Computer Vision and Pattern Recognition, Distortion, Monochrome, Computer vision, Artificial intelligence, Electrical and Electronic Engineering, business
Abstract

This letter presents a novel image quality index which extends the Universal Image Quality Index for monochrome images to multispectral and hyperspectral images through hypercomplex numbers. The proposed index is based on the computation of the hypercomplex correlation coefficient between the reference and tested images, which jointly measures spectral and spatial distortions. Experimental results, both from true and simulated images, are presented on spaceborne and airborne visible/infrared images. The results prove accurate measurements of inter- and intraband distortions even when anomalous pixel values are concentrated on few bands.

Published
2009

4. Optimal MMSE Pan Sharpening of Very High Resolution Multispectral Images

Author

F. Nencini, L. Capobianco, and Andrea Garzelli

Subjects
quality assessment, Computer science, business.industry, Multiresolution analysis, Multispectral image, Sharpening, Sensor fusion, Scale factor, Panchromatic film, Multispectral pattern recognition, Wavelet, Multispectral (MS) images, optimization, panchromatic (Pan) sharpening, General Earth and Planetary Sciences, Computer vision, Artificial intelligence, Electrical and Electronic Engineering, business, Algorithm, Image resolution
Abstract

In this paper, we propose an optimum algorithm, in the minimum mean-square-error (mmse) sense, for panchromatic (Pan) sharpening of very high resolution multispectral (MS) images. The solution minimizes the squared error between the original MS image and the fusion result obtained by spatially enhancing a degraded version of the MS image through a degraded version, by the same scale factor, of the Pan image. The fusion result is also optimal at full scale under the assumption of invariance of the fusion parameters across spatial scales. The following two versions of the algorithm are presented: a local mmse (lmmse) solution and a fast implementation which globally optimizes the fusion parameters with a moderate performance loss with respect to the lmmse version. We show that the proposed method is computationally practical, even in the case of local optimization, and it outperforms the best state-of-the-art Pan-sharpening algorithms, as resulted from the IEEE Data Fusion Contest 2006, on true Ikonos and QuickBird data and on simulated Pleiades data.

Published
2008

5. Remote sensing image fusion using the curvelet transform

Author

Stefano Baronti, Andrea Garzelli, F. Nencini, and Luciano Alparone

Subjects
Computer science, Noise reduction, Multiresolution analysis, Multispectral image, Multispectral imagery, Ridgelet transform, Curvelet transform, Wavelet, Satellite remote sensing, "A-trous" wavelet transform, Curvelet transform, Image fusion, Interband structure modeling (IBSM), Multispectral imagery, Multiresolution analysis, Pan-sharpening, Satellite remote sensing, Ridgelet transform, Curvelet, Computer vision, Pan-sharpening, Image Fusion, Image fusion, business.industry, Interband structure modeling (IBSM), Panchromatic film, Hardware and Architecture, Signal Processing, Artificial intelligence, High-pass filter, business, Software, "A-trous" wavelet transform, Information Systems
Abstract

This paper presents an image fusion method suitable for pan-sharpening of multispectral (MS) bands, based on nonseparable multiresolution analysis (MRA). The low-resolution MS bands are resampled to the fine scale of the panchromatic (Pan) image and sharpened by injecting highpass directional details extracted from the high-resolution Pan image by means of the curvelet transform (CT). CT is a nonseparable MRA, whose basis functions are directional edges with progressively increasing resolution. The advantage of CT with respect to conventional separable MRA, either decimated or not, is twofold. Firstly, directional detail coefficients matching image edges may be preliminarily soft-thresholded to achieve a noise reduction that is better than that obtained in the separable wavelet domain. Secondly, modeling of the relationships between high-resolution detail coefficients of the MS bands and of the Pan image is more fitting, being accomplished in the directional multiresolution domain. Experiments are carried out on very-high-resolution MS + Pan images acquired by the QuickBird and Ikonos satellite systems. Fusion simulations on spatially degraded data, whose original MS bands are available for reference, show that the proposed curvelet-based fusion method performs slightly better than the state-of-the art. Fusion tests at the full scale reveal that an accurate and reliable Pan-sharpening, little affected by local inaccuracies even in the presence of complex and detailed urban landscapes, is achieved by the proposed method.

Published
2007

6. Intravenous thrombolysis or endovascular therapy for acute ischemic stroke associated with cervical internal carotid artery occlusion: the ICARO-3 study

Author

Paciaroni, M. Inzitari, D. Agnelli, G. Caso, V. Balucani, C. Grotta, J.C. Sarraj, A. Sung-Il, S. Chamorro, A. Urra, X. Leys, D. Henon, H. Cordonnier, C. Dequatre, N. Aguettaz, P. Alberti, A. Venti, M. Acciarresi, M. D’Amore, C. Zini, A. Vallone, S. Dell’Acqua, M.L. Menetti, F. Nencini, P. Mangiafico, S. Barlinn, K. Kepplinger, J. Bodechtel, U. Gerber, J. Bovi, P. Cappellari, M. Linfante, I. Dabus, G. Marcheselli, S. Pezzini, A. Padovani, A. Alexandrov, A.V. Shahripour, R.B. Sessa, M. Giacalone, G. Silvestrelli, G. Lanari, A. Ciccone, A. De Vito, A. Azzini, C. Saletti, A. Fainardi, E. Orlandi, G. Chiti, A. Gialdini, G. Silvestrini, M. Ferrarese, C. Beretta, S. Tassi, R. Martini, G. Tsivgoulis, G. Vasdekis, S.N. Consoli, D. Baldi, A. D’Anna, S. Luda, E. Varbella, F. Galletti, G. Invernizzi, P. Donati, E. De Lodovici, M.L. Bono, G. Corea, F. Sette, M.D. Monaco, S. Riva, M. Tassinari, T. Scoditti, U. Toni, D.

Abstract

The aim of the ICARO-3 study was to evaluate whether intra-arterial treatment, compared to intravenous thrombolysis, increases the rate of favourable functional outcome at 3 months in acute ischemic stroke and extracranial ICA occlusion. ICARO-3 was a non-randomized therapeutic trial that performed a non-blind assessment of outcomes using retrospective data collected prospectively from 37 centres in 7 countries. Patients treated with endovascular treatment within 6 h from stroke onset (cases) were matched with patients treated with intravenous thrombolysis within 4.5 h from symptom onset (controls). Patients receiving either intravenous or endovascular therapy were included among the cases. The efficacy outcome was disability at 90 days assessed by the modified Rankin Scale (mRS), dichotomized as favourable (score of 0–2) or unfavourable (score of 3–6). Safety outcomes were death and any intracranial bleeding. Included in the analysis were 324 cases and 324 controls: 105 cases (32.4 %) had a favourable outcome as compared with 89 controls (27.4 %) [adjusted odds ratio (OR) 1.25, 95 % confidence interval (CI) 0.88–1.79, p = 0.1]. In the adjusted analysis, treatment with intra-arterial procedures was significantly associated with a reduction of mortality (OR 0.61, 95 % CI 0.40–0.93, p = 0.022). The rates of patients with severe disability or death (mRS 5–6) were similar in cases and controls (30.5 versus 32.4 %, p = 0.67). For the ordinal analysis, adjusted for age, sex, NIHSS, presence of diabetes mellitus and atrial fibrillation, the common odds ratio was 1.15 (95 % IC 0.86–1.54), p = 0.33. There were more cases of intracranial bleeding (37.0 versus 17.3 %, p = 0.0001) in the intra-arterial procedure group than in the intravenous group. After the exclusion of the 135 cases treated with the combination of I.V. thrombolysis and I.A. procedures, 67/189 of those treated with I.A. procedures (35.3 %) had a favourable outcome, compared to 89/324 of those treated with I.V. thrombolysis (27.4 %) (adjusted OR 1.75, 95 % CI 1.00–3.03, p = 0.05). Endovascular treatment of patients with acute ICA occlusion did not result in a better functional outcome than treatment with intravenous thrombolysis, but was associated with a higher rate of intracranial bleeding. Overall mortality was significantly reduced in patients treated with endovascular treatment but the rates of patients with severe disability or death were similar. When excluding all patients treated with the combination of I.V. thrombolysis and I.A. procedures, a potential benefit of I.A. treatment alone compared to I.V. thrombolysis was observed. © 2014, Springer-Verlag Berlin Heidelberg.

Published
2015

7. Landsat ETM+ and SAR image fusion based on generalized intensity Modulation

Author

F. Nencini, Luciano Alparone, Stefano Baronti, and Andrea Garzelli

Subjects
Synthetic aperture radar, Computer science, Feature extraction, Multispectral image, SAR data, Landsat 7 Enhanced Thematic Mapper Plus (ETM+), Sharpening, multispectral imagery, Multispectral pattern recognition, remote sensing, Image texture, Intensity–hue–saturation (IHS) transformation, Radar imaging, image quality, Electrical and Electronic Engineering, Remote sensing, Image fusion, Optical data, Data fusion, synthetic aperture radar (SAR) imagery, Sensor fusion, Intensity–hue–saturation (IHS) transformation, Landsat 7 Enhanced Thematic Mapper Plus (ETM+), multisensor data fusion, multispectral imagery, synthetic aperture radar (SAR) imagery, texture, Thematic Mapper, General Earth and Planetary Sciences, multisensor data fusion, texture
Abstract

This work presents a novel multisensor image fusion algorithm, which extends panchrmomatic sharpening of multispectral (MS) data through intensity modulation to the integration of MS and synthetic aperture radar (SAR) imagery. The method relies on SAR texture, extracted by ratioing the despeckled SAR image to its low-pass approximation. SAR texture is used to modulate the generalized intensity (GI) of the MS image, which is given by a linear transform extending intensity-hue-saturation transform to an arbitrary number of bands. Before modulation, the GI is enhanced by injection of high-pass details extracted from the available panchrmomatic image by means of the "a/spl grave/-trous" wavelet decomposition. The texture-modulated panchrmomatic-sharpened GI replaces the GI calculated from the resampled original MS data. Then, the inverse transform is applied to obtain the fusion product. Experimental results are presented on Landsat-7 Enhanced Thematic Mapper Plus and European Remote Sensing 2 satellite images of an urban area. The results demonstrate accurate spectral preservation on vegetated regions, bare soil, and also on textured areas (buildings and road network) where SAR texture information enhances the fusion product, which can be usefully applied for both visual analysis and classification purposes.

Published
2004

8. Error-Resilient and Low-Complexity Onboard Lossless Compression of Hyperspectral Images by Means of Distributed Source Coding

Author

Andrea Abrardo, Mauro Barni, F. Nencini, and Enrico Magli

Subjects
Lossless compression, business.industry, Computer science, Hyperspectral images, Distributed source coding, Data compression ratio, Distributed source coding (DSC), Error resilience, Hyperspectral images, Lossless compression, Data_CODINGANDINFORMATIONTHEORY, Lossy compression, Distributed source coding (DSC), Redundancy (information theory), General Earth and Planetary Sciences, Computer vision, Artificial intelligence, Electrical and Electronic Engineering, business, Error resilience, Algorithm, Decoding methods, Data compression, Image compression
Abstract

In this paper, we propose a lossless compression algorithm for hyperspectral images inspired by the distributed-source-coding (DSC) principle. DSC refers to separate compression and joint decoding of correlated sources, which are taken as adjacent bands of a hyperspectral image. This concept is used to design a compression scheme that provides error resilience, very low complexity, and good compression performance. These features are obtained employing scalar coset codes to encode the current band at a rate that depends on its correlation with the previous band, without encoding the prediction error. Iterative decoding employs the decoded version of the previous band as side information and uses a cyclic redundancy code to verify correct reconstruction. We develop three algorithms based on this paradigm, which provide different tradeoffs between compression performance, error resilience, and complexity. Their performance is evaluated on raw and calibrated AVIRIS images and compared with several existing algorithms. Preliminary results of a field-programmable gate array implementation are also provided, which show that the proposed algorithms can sustain an extremely high throughput.

Published
2010

9. Analysis of the Effects of Pansharpening in Change Detection on VHR Images

Author

L. Capobianco, F. Nencini, Andrea Garzelli, Lorenzo Bruzzone, Francesca Bovolo, and Silvia Marchesi

Subjects
Image fusion, Similarity (geometry), business.industry, Computer science, Multispectral image, very high geometrical resolution (VHR) images, Similarity measure, Geotechnical Engineering and Engineering Geology, Change detection (CD), pansharpening (PS), similarity measure, Computer vision, Artificial intelligence, Electrical and Electronic Engineering, business, Image resolution, Change detection
Abstract

In this letter, we investigate the effects of pansharpening (PS) applied to multispectral (MS) multitemporal images in change-detection (CD) applications. Although CD maps computed from pansharpened data show an enhanced spatial resolution, they can suffer from errors due to artifacts induced by the fusion process. The rationale of our analysis consists in understanding to which extent such artifacts can affect spatially enhanced CD maps. To this end, a quantitative analysis is performed which is based on a novel strategy that exploits similarity measures to rank PS methods according to their impact on CD performance. Many multiresolution fusion algorithms are considered, and CD results obtained from original MS and from spatially enhanced data are compared.

Published
2010

10. On the effects of pan-sharpening to target detection

Author

Andrea Garzelli, F. Nencini, and L. Capobianco

Subjects
Image fusion, Target detection, Spectral signature, Contextual image classification, business.industry, Computer science, Multispectral image, Pattern recognition, Sharpening, Pansharpening, Object detection, Panchromatic film, Object-class detection, Computer vision, Artificial intelligence, business, Target detection, Image fusion, Pansharpening, Feature detection (computer vision)
Abstract

We present an experimental study on the effects of pansharp-ening on target detection from multispectral and panchromatic images acquired by very-high resolution satellite sensors. Original and spatially-enhanced image data are used to detect relatively small targets (vehicles on an airport scenario) characterized by a sufficiently well-defined spectral signature in the four MS bands. The aim of the paper is to compare different pansharpening methods by evaluating the performances of target detection on true MS and panchromatic data. Both linear and kernel-based one-class classification methods are considered for the target detection process.

Published
2009

11. Fast weighted least squares pan-sharpening

Author

Andrea Garzelli, F. Nencini, Luciano Alparone, and L. Capobianco

Subjects
Very-high-resolution satellite data, business.industry, Estimation theory, Multispectral image, Pattern recognition, Sharpening, Thresholding, Weighting, Support vector machine, Multispectral imaging, Geography, Kernel (statistics), Multispectral imaging, Pan-sharpening, Very-high-resolution satellite data, Segmentation, Artificial intelligence, Pan-sharpening, business
Abstract

We present a fast pan-sharpening method, namely FWLS, which is based on unsupervised segmentation of the original multispectral (MS) data for improved parameter estimation in a weighted least square fusion scheme. The use of simple thresholding of the normalized difference vegetation index (NDVI) dramatically reduces the computation time with respect to the recently proposed WLS method which is based on accurate supervised classification through kernel support vector machines. The fusion performances of the FWLS algorithm are the same that those obtained by the WLS algorithm, and even higher in some cases, since accurate extraction of vegetated/non-vegetated areas is only needed and high-performance supervised classification is generally not required for fusion parameter estimation. Experimental results and comparisons to state-of-the-art fusion methods are reported on Ikonos and QuickBird data. Both visual and objective quality assessment of the fusion results confirm the validity of the proposed FWLS algorithm.

Published
2009

12. Low-complexity and error-resilient hyperspectral image compression based on distributed source coding

Author

Mauro Barni, B. Penna, Andrea Abrardo, Enrico Magli, F. Nencini, Raffaele Vitulli, Andrea Bertoli, and Andrea Garzelli

Subjects
Lossless compression, business.industry, Computer science, Distributed source coding, Image processing, Distributed source coding, Error resilience, Hyperspectral compression, Lossless compression, Data_CODINGANDINFORMATIONTHEORY, Computer vision, Artificial intelligence, business, Error detection and correction, Error resilience, Hyperspectral compression, Algorithm, Decoding methods, Computer Science::Information Theory, Image compression, Data compression, Block (data storage)
Abstract

In this paper we propose a lossless compression algorithm for hyperspectral images based on distributed source coding; this algorithm represents a significant improvement over our prior work on the same topic, and has been developed during a project funded by ESA-ESTEC. In particular, the algorithm achieves good compression performance with very low complexity; moreover, it also features a very good degree of error resilience. These features are obtained taking inspiration from distributed source coding, and particularly employing coset codes and CRC-based decoding. As the CRC can be used to decode blocks using a reference different from that used to compress the image, this yields error resilience. In particular, if a block is lost, decoding using the closest collocated block in the second previous band is successful about 70% of the times.

Published
2008

13. Weighted Least Squares Pan-Sharpening of Very High Resolution Multispectral Images

Author

Andrea Garzelli, L. Capobianco, and F. Nencini

Subjects
Image fusion, Pixel, business.industry, Computer science, Multiresolution analysis, Multispectral image, Support Vector machine, Pattern recognition, Sharpening, Sensor fusion, Data Fusion, Panchromatic film, Support vector machine, Computer Science::Computer Vision and Pattern Recognition, Weighted Least Square Estimator, Data Fusion, Pan-sharpening, Support Vector machine, Weighted Least Square Estimator, Computer vision, Artificial intelligence, Pan-sharpening, business, Image resolution
Abstract

This paper presents a solution to the problem of enhancing the spatial resolution of multispectral images with high-resolution panchromatic observations. The proposed method exploits a Weighted Least Squares estimator to calculate injection parameters in the fusion model. For each pixel of the image a weight is calculated by a classification map. The classifier used in the experiments is a Support Vector Machine in order to obtain high accuracy on each land-cover type. Results are presented and discussed on very-high resolution images acquired by Quickbird and Ikonos satellite systems. Fusion simulations on spatially degraded data and fusion tests at full scale reveal that an accurate and reliable PAN-sharpening is achieved by the proposed method.

Published
2008

14. Multispectral and Panchromatic Data Fusion Assessment Without Reference

Author

Andrea Garzelli, F. Nencini, Luciano Alparone, Stefano Baronti, Bruno Aiazzi, and Massimo Selva

Subjects
multiresolution decomposition, data fusion, business.industry, Image quality, Multispectral image, Image processing, Pattern recognition, pansharpening, Sensor fusion, Multispectral pattern recognition, Panchromatic film, Geography, Image quality assessment, Distortion, multispectral images, Artificial intelligence, Computers in Earth Sciences, business, Image resolution, Remote sensing
Abstract

This paper introduces a novel approach for evaluating the quality of pansharpened multispectral (MS) imagery without resorting to reference originals. Hence, evaluations are feasible at the highest spatial resolution of the panchromatic (PAN) sensor. Wang and Bovik’s image quality index (QI) provides a statistical similarity measurement between two monochrome images. The QI values between any couple of MS bands are calculated before and after fusion and used to define a measurement of spectral distortion. Analogously, QI values between each MS band and the PAN image are calculated before and after fusion to yield a measurement of spatial distortion. The rationale is that such QI values should be unchanged after fusion, i.e., when the spectral information is translated from the coarse scale of the MS data to the fine scale of the PAN image. Experimental results, carried out on very high-resolution Ikonos data and simulated Pleiades data, demonstrate that the results provided by the proposed approach are consistent and in trend with analysis performed on spatially degraded data. However, the proposed method requires no reference originals and is therefore usable in all practical cases.

Published
2008

16. Information-theoretic multitemporal features for change analysis from SAR images

Author

Bruno Aiazzi, Andrea Garzelli, F. Nencini, Luciano Alparone, and Stefano Baronti

Subjects
texture feature, Synthetic aperture radar, Information theory, SAR data, Image processing, Change detection, Information theory, Logratio, Multitemporal SAR images, Remote sensing, Speckle, Synthetic aperture radar (SAR), Multitemporal SAR images, Speckle pattern, Speckle, Radar imaging, Preprocessor, Computer vision, dhange detectiion, Pixel, business.industry, Logratio, multitemporal features, Remote sensing, Change analysis, Synthetic aperture radar (SAR), Geography, Feature (computer vision), Change detection, Artificial intelligence, business
Abstract

Multitemporal analysis of Synthetic Aperture Radar (SAR) images has gained an ever increasing attention due to the availability of several satellite platforms with different revisit times and to the intrinsic capability of the SAR system of producing all-weather observations. As a drawback, automated analysis in general and change detection in particular are made difficult by the inherent noisiness of SAR imagery. Even if a preprocessing step aimed at speckle reduction is adopted, most of algorithms borrowed from computer vision cannot be profitably used. In this work, a novel pixel feature suitable for change analysis is derived from information-theoretic concepts. It does not require preliminary despeckling and is capable of providing accurate change maps from a couple of SAR images. The rationale is that the negative of logarithm of the probability of an amplitude level in one image conditional to the level of the same pixel in the other image conveys an information on the amount of change occurred between the two passes. Experimental results carried out on two couples of multitemporal SAR images demonstrate that the proposed IT feature outperforms the Log-Ratio in terms of capability of discriminating either burnt or flooded areas and is less sensitive than Log-Ratio to changes in acquisition angle between the two SAR images.

Published
2008

18. Spatial Enhancement of Hyperion Hyperspectral Data Through ALI Panchromatic Image

Author

Andrea Garzelli, L. Capobianco, F. Nencini, Luciano Alparone, and Stefano Baronti

Subjects
Image fusion, Computer science, business.industry, Hyperspectral imaging, Computer vision, Artificial intelligence, Sharpening, Scale (map), business, Remote sensing, Panchromatic film, Image (mathematics)
Abstract

This paper presents two novel image fusion methods, suitable for sharpening of hyperspectral (HS) images by means of a panchromatic (Pan) observation: the HS bands expanded to the finer scale of the Pan image are sharpened by adding the spatial details which are calculated by the PAN image. Since a direct, unconditioned injection of Pan details gives unsatisfactory results, a new injection model is proposed, which provides the optimum injection simulating fusion at degraded scale by minimizing the mean square error. Fusion tests are carried out both on spatially degraded data to objectively compare the proposed scheme to some fusion methods and on full resolution image data.

Published
2007

19. Panchromatic sharpening of remote sensing images using a multiscale Kalman filter

Author

Andrea Garzelli and F. Nencini

Subjects
Discrete wavelet transform, Computer science, Image quality, Multiresolution analysis, Multispectral image, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Image processing, Sharpening, Wavelet packet decomposition, Multiresolution image fusion, Wavelet, Band-pass filter, Artificial Intelligence, Computer vision, Pan-sharpening, Image resolution, Image fusion, Signal processing, business.industry, Filter bank, Sensor fusion, Panchromatic film, Multiscale Kalman filter, Computer Science::Computer Vision and Pattern Recognition, Signal Processing, "A-trous" wavelet transform, Computer Vision and Pattern Recognition, Artificial intelligence, business, Software
Abstract

This paper presents a solution to the problem of enhancing the spatial resolution of multispectral images with high-resolution panchromatic observations. The proposed method exploits the undecimated discrete wavelet transform, which is an octave bandpass representation achieved from a conventional discrete wavelet transform by omitting all decimators and up-sampling the wavelet filter bank, and the vector multiscale Kalman filter, which is used to model the injection process of wavelet details. Kalman modelization is exploited by spatial detail analysis at coarser scales in which multispectral and panchromatic representations are known. Results are presented and discussed on very-high resolution images acquired by Quickbird satellite systems. Fusion simulations on spatially degraded data and fusion tests at the full scale reveal that an accurate and reliable PAN-sharpening is achieved by the proposed method.

Published
2007

21. A new method for quality assessment of hyperspectral images

Author

Andrea Garzelli, Stefano Baronti, F. Nencini, and Luciano Alparone

Subjects
hyperspectral images, Image fusion, Image quality, Computer science, quaternion theory, Hyperspectral imaging, Image sensor, Sensor fusion, Image resolution, Quality assessment, Remote sensing, Panchromatic film
Abstract

This work focuses on quality assessment of fusion of hyperspectral (HS) images with high-resolution panchromatic (Pan) data. A novel fidelity index suitable for HS images is defined from the theory of hypercomplex numbers (2n -ons). Both spectral and spatial distortion measurements are encapsulated in a unique score index. Some fusion methods capable to selectively inject spatial-frequencies from the higher-resolution Pan image to the coarser HS bands are used for testing and comparisons. Experimental results are presented on Hyperion and ALI data sets.

Published
2007

22. Introducing training and parameter tuning for KOSP classification of hyperspectral images

Author

Andrea Garzelli, F. Nencini, L. Carli, and L. Capobianco

Subjects
Ground truth, Support vector machines, business.industry, Kernel orthogonal subspace projection, Orthographic projection, Centroid, Hyperspectral imaging, Pattern recognition, Overfitting, Classification, Support vector machine, ComputingMethodologies_PATTERNRECOGNITION, Kernel method, Kernel (image processing), K-fold cross validation, Artificial intelligence, business, Pattern search optimization, Classification, K-fold cross validation, Kernel orthogonal subspace projection, Pattern search optimization, Support vector machines, Mathematics
Abstract

Kernel-based Orthogonal Subspace Projection (KOSP) provides good results in the field of classification of hyperspectral images. However, an open-problem is the evaluation from the ground-truth samples of the prototypes that best represent the classes. In the original formulation of KOSP, this preliminary (training) stage is very simple since for each class the prototype is computed as the centroid of the ground-truth samples. In order to improve KOSP performances, in this paper we introduce a minimization problem to evaluate the best prototypes from a given ground truth of a specific classification problem. K-fold cross-validation is used to avoid overfitting. The performance of the proposed methodology is tested by classifying the widely used 'Indian Pine' hyperspectral dataset collected by the AVIRIS spectrometer.

Published
2007

23. Robust change analysis of SAR data through information-theoretic multitemporal features (Invited Paper)

Author

B. Aiazzi, L. Alparone, S. Baronti, A. Garzelli, and F. Nencini

Subjects
multitemporal data, information-based features, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, automatic change detection, SAR data, Change analysis
Abstract

Multi-temporal analysis of Synthetic Aperture Radar (SAR) images has gained an ever increasing attention due to the availability of several satellite platforms with different revisit times and to the intrinsic capability of the SAR system of producing all-weather observations. As a drawback, automated analysis in general and change detection in particular are made difficult by the inherent noisiness of SAR imagery. Even if a pre-processing step aimed at speckle reduction is adopted, most of algorithms borrowed from computer vision cannot be profitably used. In this work, a novel pixel feature suitable for change analysis is derived from information-theoretic concepts. It does not require preliminary de-speckling and capable of providing accurate change maps from a couple of SAR images. The rationale is that the negative of logarithm of the probability of an amplitude level in one image conditional to the level of the same pixel in the other image conveys an information on the amount of change occurred between the two passes. Experimental results carried out on two couples of multi-temporal SAR images demonstrate that the proposed IT feature outperform the Log-Ratio in terms of capability of discriminating changes.

Published
2007

24. Context-sensitive Pan-sharpening of multispectral images

Author

Andrea Garzelli, Stefano Baronti, F. Lotti, F. Nencini, Luciano Alparone, Bruno Aiazzi, and Massimo Selva

Subjects
Image fusion, Context adaptive pan-sharpening, Computer science, business.industry, Multiresolution analysis, Multispectral image, Context (language use), Sharpening, component substitution, Data fusion, Panchromatic film, multiresolution analysis, High spatial resolution, multispectral images, Computer vision, Artificial intelligence, business, Fusion result
Abstract

Multiresolution analysis (MRA) and component substitution (CS) are the two basic frameworks to which image fusion algorithms can be reported when merging multi-spectral (MS) and panchromatic (Pan) images (Pan-sharpening). State-of-the-art algorithms add spatial details derived from the Pan image to the MS bands according to an injection model. The capability of the model to describe the relationship between the MS and Pan images is crucial for the quality of fusion results. Although context adaptive (CA) injection models have been proposed in the framework of MRA, their adoption in CS schemes has been scarcely investigated so far. In this work a CA injection model already tested for MRA algorithms is evaluated also for CS schemes. Qualitative and quantitative results reported for IKONOS high spatial resolution data show that CA injection models are more efficient than global ones.

Published
2007
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25. Robust change analysis of SAR data through information-theoretic multitemporal features

Author

Bruno Aiazzi, Stefano Baronti, F. Nencini, Luciano Alparone, and Andrea Garzelli

Subjects
Synthetic aperture radar, Speckle pattern, Pixel, Robustness (computer science), Computer science, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Satellite, Image processing, Computer vision, Artificial intelligence, business, Change detection
Abstract

Multi-temporal analysis of Synthetic Aperture Radar (SAR) images has gained an ever increasing attention due to the availability of several satellite platforms with different revisit times and to the intrinsic capability of the SAR system of producing all-weather observations. As a drawback, automated analysis in general and change detection in particular are made difficult by the inherent noisiness of SAR imagery. Even if a pre-processing step aimed at speckle reduction is adopted, most of algorithms borrowed from computer vision cannot be profitably used. In this work, a novel pixel feature suitable for change analysis is derived from information-theoretic concepts. It does not require preliminary de-speckling and capable of providing accurate change maps from a couple of SAR images. The rationale is that the negative of logarithm of the probability of an amplitude level in one image conditional to the level of the same pixel in the other image conveys an information on the amount of change occurred between the two passes. Experimental results carried out on two couples of multi-temporal SAR images demonstrate that the proposed IT feature outperform the Log-Ratio in terms of capability of discriminating changes.

Published
2007

26. Comparison of kernel-based methods for spectral signature detection and classification of hyperspectral images

Author

L. Capobianco, Andrea Garzelli, L. Carli, and F. Nencini

Subjects
Signal processing, Spectral signature, business.industry, Hyperspectral imaging, Image processing, Pattern recognition, Classification, Classification, Support Vector Machines, Kernel Orthogonal Subspace Projection, Support vector machine, Kernel method, Kernel (image processing), Kernel Orthogonal Subspace Projection, Support Vector Machines, Artificial intelligence, business, Mathematics, Curse of dimensionality
Abstract

The aim of this paper is to assess and compare the performance of two kernel-based classification methods based on two different approaches. On one hand the Support Vector Machine (SVM), which in the last years has shown excellent results for hard classification of hyperspectral data; on the other hand a detection method called Kernel Orthogonal Subspace Projection KOSP, proposed in a recent paper.1 To this aim, the widely used "Indian Pine" Aviris dataset is adopted, and a common "test protocol" has been considered: both methods have been tested adopting the one-vs-rest strategy, i.e. by performing the detection of each spectral signature (representing one of the N classes) and by considering the spectral signatures of the remaining N - 1 classes as background. The same dimensionality of the training set is also considered in both approaches.

Published
2006

27. The curvelet transform for fusion of very high resolution multispectral and panchromatic images

Author

L. Alparone, S. Baronti, A. Garzelli, and F. Nencini

Subjects
pan-sharpening, curvelet transform, image fusion, pan-sharpening, ridgelet transform, curvelet transform, image fusion, ridgelet transform
Abstract

This paper presents a novel image fusion method, suitable for pan-sharpening of multispectral (MS) bands, based on multi-resolution analysis (MRA). The low-resolution MS bands are sharpened by injecting high-pass directional details extracted from the high-resolution panchromatic (Pan) image by means of the curvelet transform, which is a non-separable MRA, whose basis function are directional edges with progressively increasing resolution. The advantage with respect to conventional separable MRA, either decimated or not, is twofold: directional detail coefficients matching image edges may be preliminarily soft-thresholded to achieve denoising better than in the separable wavelet domain; modeling of the relationships between high-resolution detail coefficients of MS bands and of the Pan image is more fitting, being carried out in a directional wavelet domain. Experiments carried out on a very-high resolution MS + Pan QuickBird image show that the proposed curvelet method quantitatively outperforms state-of-the art image fusion methods, in terms of geometric, radiometric, and spectral fidelity

Published
2006

28. Information-theoretic assessment of fusion of multispectral and panchromatic images

Author

Bruno Aiazzi, Stefano Baronti, Andrea Garzelli, F. Nencini, and Luciano Alparone

Subjects
Measure (data warehouse), Image fusion, quality assessment, business.industry, Computer science, Multispectral image, Scale (descriptive set theory), Mutual information, Remote sensing, Information theory, Panchromatic film, Image fusion, Mutual information, Pan-sharpening, Quality assessment, Remote sensing, multiresolution decompositions, Computer vision, Artificial intelligence, Pan-sharpening, business, information theoretic, Image resolution
Abstract

In this work we investigate the use of Shannon's information theory for the goal of devising quality scores of image fusion results, that do not require reference originals. In particular, the mutual information between resampled original and fused MS bands is used to measure the spectral quality, while the mutual information between the Pan image and the fused bands yields a measure of spatial quality. The rationale is that the normalized mutual information calculated either between any couple of bands, or between each MS band and the Pan image, should be unchanged after fusion, i.e., when passing from the coarse scale of the MS data to the fine scale of the Pan image. Experimental results carried out on QuickBird and Ikonos data demonstrate that the results provided by the proposed information-theoretic method are in trend with analysis performed on spatially degraded data by means of such parameters as Walds's ERGAS, Wang and Bovik's QI, and the novel Q4 score index based on quaternions theory and recently proposed by the authors. However, the novel method requires no reference and is therefore directly applicable in all practical cases.

Published
2006

29. Can multiresolution fusion techniques improve classification accuracy?

Author

Andrea Garzelli, Lorenzo Bruzzone, Lorenzo Carlin, Stefano Baronti, F. Nencini, and Luciano Alparone

Subjects
Fusion, data fusion, Classification accuracy, Computer science, business.industry, multiresolution fusion, Pattern recognition, very high geometrical resolution images, multiresolution fusion, automatic classification, remote sensing, very high geometrical resolution images, automatic classification, computer.software_genre, Data classification, Statistical classification, remote sensing, Multiresolition image fusion, Discriminant, multispectral images, Data mining, Artificial intelligence, business, computer, Classifier (UML)
Abstract

In this paper we propose an analysis of the effects of the multiresolution fusion process on the accuracy provided by supervised classification algorithms. In greater detail, the rationale of this analysis consists in understanding in what conditions the merging process can increase/decrease the classification accuracy of different labeling algorithms. On the one hand, it is expected that the multiresolution fusion process can increase the classification accuracy of simple classifiers, characterized by linear or "moderately" non-linear discriminant functions. On the other hand, the spatial and spectral artifacts unavoidably included in the fused images can decrease the accuracy of more powerful classifiers, characterized by strongly non-linear discriminant functions. In this last case, in fact, the classifier is intrinsically able to extract and emphasize all the information present in the original images without any need of a merging procedure. These effects may be different by considering different fusion methodologies and different classification techniques. Several experiments are carried out by applying the different fusion and classification techniques to an image acquired by the Quickbird sensor on the city of Pavia (Italy). From these experiments it is possible to derive interesting conclusions on the effectiveness and the appropriateness of the different investigated multiresolution fusion techniques with respect to classifiers having different complexity and capacity.

Published
2006

30. PAN-sharpening of very high resolution multispectral images using genetic algorithms

Author

Andrea Garzelli and F. Nencini

Subjects
Image fusion, quality index, Computer science, business.industry, Multiresolution analysis, Distortion (optics), Multispectral image, pansharpening, Pattern recognition, Sharpening, Data fusion, Pan sharpening, Panchromatic film, genetic algorithms, multiresolution analysis, Genetic algorithm, General Earth and Planetary Sciences, Artificial intelligence, Scale (map), business
Abstract

A novel image fusion method is presented, suitable for sharpening of multispectral (MS) images by means of a panchromatic (PAN) observation. The method is based on redundant multiresolution analysis (MRA); the MS bands expanded to the finer scale of the PAN band are sharpened by adding the spatial details from the MRA representation of the PAN data. As a direct, unconditioned injection of PAN details gives unsatisfactory results, a new injection model is proposed that provides the optimum injection by maximizing a global quality index of the fused product. To this aim, a real-valued genetic algorithm (GA) has been defined and tested on Quickbird data. The optimum GA injection is driven by an index function capable of measuring different types of possible distortions in the fused images. Fusion tests are carried out on spatially degraded data to objectively compare the proposed scheme to the most promising state-of-the-art image fusion methods, and on full-resolution image data to visually assess the performance of the proposed genetic image fusion method.

Published
2006

31. A New Method for MS+Pan image Fusion Assessment Without Reference

Author

Andrea Garzelli, Stefano Baronti, Bruno Aiazzi, F. Nencini, and Luciano Alparone

Subjects
Image fusion, quality assessment, Image quality, business.industry, Estimation theory, Mutual information, Information theory, multiresolution decompositions, Entropy (information theory), Computer vision, Artificial intelligence, business, Quaternion, information theoretic, Image resolution
Abstract

In this work we investigate the use of Shannon's information theory for the goal of devising quality scores of image fusion results that do not require reference originals. In particular, the mutual information between resampled original and fused MS bands is used to measure the spectral quality, while the mutual information between the Pan image and the fused bands yields a measure of spatial quality. The rationale is that the normalized mutual information calculated either between any couple of bands, or between each MS band and the Pan image, should be unchanged after fusion, i.e., when passing from the coarse scale of the MS data to the fine scale of the Pan image. Experimental results carried out on QuickBird and Ikonos data demonstrate that the results provided by the proposed information-theoretic method are in trend with analysis performed on spatially degraded data by means of such parameters as Walds's ERGAS, Wang and Bovik's QI, and the novel Q4 score index based on quaternions theory and recently proposed by the authors. However, the novel method requires no reference and is therefore directly applicable in all practical cases.

Published
2006

32. Multiresolution fusion of multispectral and panchromatic images through the curvelet transform

Author

Stefano Baronti, Andrea Garzelli, F. Nencini, and Luciano Alparone

Subjects
Fusion, Image fusion, business.industry, Multiresolution analysis, Curvelet transform, Multispectral image, Pattern recognition, curvelet transform, Pan sharpening, image fusion, Panchromatic film, spatial detail injection, Radiometry, Computer vision, Artificial intelligence, business, Image resolution, multiresolution data fusion
Abstract

This paper presents a novel image fusion method, suitable for pan-sharpening of multispectral (MS) bands, based on multiresolution analysis (MRA). The low-resolution MS bands are sharpened by injecting highpass directional details extracted from the high-resolution panchromatic (Pan) image by means of the curvelet transform, which is a nonseparable MRA, whose basis function are directional edges with progressively increasing resolution. The advantage with respect to conventional separable MRA, either decimated or not, is twofold: directional detail coefficients matching image edges may be preliminarily softthresholded to achieve denoising better than in the separable wavelet domain; modeling of the relationships between highresolution detail coefficients of MS bands and of the Pan image is more fitting, being carried out in a directional wavelet domain. Experiments carried out on a very-high resolution MS + Pan QuickBird image show that the proposed curvelet method quantitatively outperforms state-of-the art image fusion methods, in terms of geometric, radiometric, and spectral fidelity.

Published
2005

33. Virtually lossless compression of scientific data: an application to astrophysical images

Author

Stefano Baronti, F. Nencini, Luciano Alparone, Cinzia Lastri, and Bruno Aiazzi

Subjects
Lossless compression, business.industry, Computer science, Quantization (signal processing), ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Data compression ratio, Image processing, Data_CODINGANDINFORMATIONTHEORY, computer.file_format, Lossy compression, JPEG 2000, Transparency (data compression), Telecommunications, business, Quantization (image processing), computer, Algorithm, Image compression, Data compression
Abstract

Thispaperdescribesanimagecompressionstrategypotentiallycapableofpreservingthescienti cqualityofastrophysicaldata, simultaneously allowing a consistent bandwidth reduction to be achieved. Unlike strictly lossless techniques, bywhich moderate compression ratios are attainable, and conventional lossy techniques, in which the mean squared error ofthe decoded data is globally controlled by user, near-lossless methods are capable to locally constrain the maximum ab-solute error,based on user’s requirements. An advancedlossless/near-lossless differentialpulse code modulation(DPCM)scheme, recently introduced by the authors and relying on a causal spatial prediction , is adjusted to the speci c char-acteristics of astrophysical image data (high radiometric resolution, generally low noise, etc.). The background noise ispreliminarilyestimated to drive the quantizationstage for high quality, which is the primaryconcernin most of astrophys-ical applications. Extensive experimental results of lossless, near-lossless, and lossy compression of astrophysical imagesacquiredbytheHubbleSpaceTelescopeshowtheadvantagesoftheproposedmethodcomparedtostandardtechniqueslikeJPEG-LS and JPEG2000. Eventually, the rationale of virtually-lossless compression, that is a noise-adjusted lossles/near-lossless compression, is highlighted and found to be in accordance with concepts well established for the astronomers’community.Keywords: Astrophysical images, Consultative Committee for Space Data Systems (CCSDS), differential pulse codemodulation(DPCM), lossless compression, near-lossless compression,noise estimation, statistical context modeling.

Published
2005

34. Fusion of microwave and optical images through intensity modulation by SAR textural features

Author

Stefano Baronti, F. Nencini, Luciano Alparone, Andrea Garzelli, and Bruno Aiazzi

Subjects
Synthetic aperture radar, texture feature, Landsat-7/Enhanced Thematic Mapper Plus (ETM+), Intensity modulation, Computer science, Multispectral image, Synthetic Aperture Radar (SAR) imagery, Image processing, SAR data, Multispectral imagery, Wavelet, Textural features, Radar imaging, Image fusion, Computer vision, microwave data, SAR textural features, Optical data, business.industry, Remote sensing, Data fusion, Sensor fusion, Feature (computer vision), Multi-sensor image fusion, Intensity-Hue-Saturation (IHS) transformation, Landsat-7/Enhanced Thematic Mapper Plus (ETM+), Multi-sensor image fusion, Multispectral imagery, Remote sensing, Synthetic Aperture Radar (SAR) imagery, Textural features, Artificial intelligence, business, Intensity-Hue-Saturation (IHS) transformation
Abstract

This paper presents a novel multisensor image fusion algorithm, which extends pan-sharpening of multispectral (MS) data through intensity modulation to the integration of MS and SAR imagery. The method relies on SAR texture, extracted by ratioing a map of a SAR feature to its lowpass approximation. SAR texture is used to modulate the generalized intensity (GI) of the MS image, which is given by a linear transform extending Intensity-Hue-Saturation (IHS) transform to an arbitrary number of bands. Before modulation, the GI is enhanced by injection of highpass details extracted from the available Pan image by means of the "a-trous" wavelet decomposition. The texture-modulated pan-sharpened GI replaces the GI calculated from the resampled original MS data; then the inverse transform is applied to obtain the fusion product. Experimental results are presented on Landsat-7/ETM+ and ERS-2 images of an urban area. The results demonstrate accurate spectral preservation on vegetated regions, bare soil, and also on textured areas (buildings and road network) where SAR texture information enhances the fusion product, which can be usefully applied for both visual analysis and classification purposes.

Published
2005
Full Text
View/download PDF

35. Virtually lossless compression of scientific data: an application to astrophysical images

Author

B. Aiazzi, L. Alparone, S. Baronti, C. Lastri, and F. Nencini

Subjects
Computer Science::Multimedia, Near-lossless coding, astrophysical images, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Hyperspectral data compression, Data_CODINGANDINFORMATIONTHEORY, Virtually lossless compression, DPCM, Computer Science::Information Theory
Abstract

This paper describes an image compression strategy potentially capable of preserving the scientific quality of astrophysical data, simultaneously allowing a consistent bandwidth reduction to be achieved. Unlike strictly lossless techniques, by which moderate compression ratios are attainable, and conventional lossy techniques, in which the mean squared error of the decoded data is globally controlled by user, near-lossless methods are capable to locally constrain the maximum absolute error, based on user's requirements. An advanced lossless/near-lossless differential pulse code modulation (DPCM) scheme, recently introduced by the authors and relying on a causal spatial prediction, is adjusted to the specific characteristics of astrophysical image data (high radiometric resolution, generally low noise, etc.). The background noise is preliminarily estimated to drive the quantization stage for high quality, which is the primary concern in most of astrophysical applications. Extensive experimental results of lossless, near-lossless, and lossy compression of astrophysical images acquired by the Hubble Space Telescope show the advantages of the proposed method compared to standard techniques like JPEG-LS and JPEG2000. Eventually, the rationale of virtually-lossless compression, that is a noise-adjusted lossles/near-lossless compression, is highlighted and found to be in accordance with concepts well established for the astronomers' community.

Published
2005

36. Interband structure modeling for Pan-sharpening of very high resolution multispectral images

Author

F. Nencini and Andrea Garzelli

Subjects
Computer science, Multiresolution analysis, Multispectral image, Urban remote sensing, Sharpening, Pan sharpening, Very high-resolution multispectral imagery, multiresolution analysis, Wavelet, high-resolution multispectral images, detail injection modeling, QuickBird, Computer vision, Pixel, business.industry, Band sharpening, A-trous wavelet transform (ATWT), Interband structure modeling (IBSM), Pattern recognition, A-trous wavelet transform (ATWT), Band sharpening, Data fusion, Interband structure modeling (IBSM), Multiresolution analysis (MRA), QuickBird, Urban remote sensing, Very high-resolution multispectral imagery, Data fusion, Sensor fusion, Panchromatic film, Hardware and Architecture, Multiresolution analysis (MRA), Test set, Signal Processing, Artificial intelligence, business, Software, Information Systems
Abstract

This paper addresses the modeling of wavelet coefficients for multispectral (MS) band sharpening based on undecimated multiresolution analysis (MRA). The coarse MS bands are sharpened by injecting highpass details taken from a high-resolution panchromatic (Pan) image. Besides the MRA, crucial point is modeling the relationships between detail coefficients of a generic MS band and the Pan image at the same resolution. Once calculated at the coarser resolution, where both types of data are available, such a model shall be extrapolated to the finer resolution in order to weight the Pan details to be injected. The goal is that the merged MS images are most similar to what the MS sensor would collect if it had the same resolution as the broadband Pan imager. Three injection models embedded in an ''a trous'' wavelet decomposition will be described and compared on a test set of very high-resolution QuickBird MS+Pan data. Two models work on approximation and detail coefficients, respectively, and provide a certain degree of unmixing of coarse MS pixels. The third model is based on spectral fidelity of the merged image to the (resampled) original MS data, that is, no unmixing is attempted. It is much simpler than the other two because it does not require calculation of local statistics. Fusion comparisons on spatially degraded data, of which higher-resolution true MS data are available for reference, show that the former two models yield better results than the latter, in terms of both radiometric and spectral fidelity. The latter, however, yields a reliable sharpening unaffected by local artifacts, regardless of landscape complexity. When local statistics of wavelet coefficients are used, the model estimated on approximation yields slightly better but considerably stabler results than that calculated starting from bandpass details.

Published
2005

37. A new method for quality assessment of MS + pan fusion of quickbird and ikonos data

Author

L. Alparone, S. Baronti, A. Garzelli, and F. Nencini

Subjects
data fusion, image quality, Pan sharpening, high resolution remote sensing imagery
Abstract

This paper focuses on quality assessment of fusion of multispectral (MS) images with high-resolution panchromatic (Pan) observations. A new quality index suitable for MS imagery having four spectral bands is defined from the theory of hypercomplex numbers, or quaternions. Both spectral and radiometric distortion measurements are encapsulated in a unique measurement, simultaneously accounting for local mean bias, changes in contrast and loss of correlation of individual bands, together with spectral distortion. Results are presented and discussed on very high-resolution QuickBird data, by means of comparisons between state-of-the-art and advanced MS+Pan merge algorithms.

Published
2005

38. Sea SAR image analysis by fractal data fusion

Author

Fabrizio Berizzi, Marco Martorella, F. Nencini, G. Bertini, Fabio Dell'Acqua, Paolo Gamba, and Andrea Garzelli

Subjects
Synthetic aperture radar, Fractal, Contextual image classification, Image texture, law, Radar imaging, Surface roughness, Radar, Fractal dimension, Geology, Remote sensing, law.invention
Abstract

SAR images from space-borne platforms have proved to be helpful data for identification of oil spills and other surface anomalies, such as low wind areas, man-made targets, and natural films. The use of fractal dimension, which is related to the concept of surface "roughness", as a feature for classification, improves the detection of anomalies, since enhances texture discrimination. In the particular case of oil slicks, the surface tension of seawater is increased and the surface wave motion is significantly depressed. This effect relatively reduces the sea surface roughness, decreases the radar backscattered energy and enables oil slicks to be discernible from the radar image. Several algorithms may be applied for local fractal dimension estimation, but most solutions are tailored for specific applications and are characterized by estimation accuracies depending on the adopted image model and also on the value being estimated. This paper describes a decision-based fusion approach for local fractal dimension estimation of SAR images of the sea surface. Three different estimation algorithms are considered and the three resulting fractal maps are fused by means of a weighted average. The weights are calculated from the performance characteristics of the three algorithms measured on synthetic fractal surfaces. The experimental results carried out on ERS-2 SAR images prove the effectiveness of the proposed decision-based fusion approach

Published
2004

39. Spectral information extraction from very high resolution images through multiresolution fusion

Author

Andrea Garzelli, Stefano Baronti, F. Nencini, Luciano Alparone, Massimo Selva, and Bruno Aiazzi

Subjects
Image fusion, A trous wavelet transform, multiresolution analysis (MRA), Pixel, Computer science, Image quality, business.industry, Multiresolution analysis, Multispectral image, Sensor fusion, image fusion, A trous wavelet transform, generalized Laplacian pyramid (GLP), image fusion, multiresolution analysis (MRA), multispectral images, remote sensing, spectral distortion, Panchromatic film, remote sensing, Wavelet, generalized Laplacian pyramid (GLP), multispectral images, Computer vision, spectral distortion, Artificial intelligence, business, Image resolution
Abstract

This paper critically reviews state-of-the-art and advanced methods for multispectral (MS) and panchromatic (Pan) image fusion based on either intensity-hue-saturation (IHS) transformation, or redundant multiresolution analysis (MRA). In either cases, lower-resolution MS bands are sharpened by injecting details taken from the higher-resolution Pan image. Crucial point is modeling the relationships between detail coefficients of a generic MS band and the Pan image at the same resolution. Once calculated at the coarser resolution, where both types of data are available, such a model shall be extended to the finer resolution to weight the Pan details to be injected. Two injection models embedded in an a trous wavelet decomposition will be compared on a test set of very high resolution QuickBird MS+Pan data. One works on approximations and provides a partial unmixing of coarse MS pixels via high-resolution Pan. Another is based on spectral fidelity of original and merged MS data. Fusion comparisons on spatially degraded data, whose high-resolution MS originals are available for reference, show that the former performs better than the latter, in terms of both spatial and spectral fidelity.

Published
2004

40. Spectral information extraction from very high resolution images through multiresolution fusion (Invited Paper)

Author

L. Alparone, B. Aiazzi, S. Baronti, A. Garzelli, F. Nencini, and M. Selva

Subjects
image quality, Data fusion, injection model, Pan sharpening, multiresolution analysis
Abstract

This paper critically reviews state-of-the-art and advanced methods for multispectral (MS) and panchromatic (Pan) image fusion based on either intensity-hue-saturation (IHS) transformation, or redundant multiresolution analysis (MRA). In either cases, lower-resolution MS bands are sharpened by injecting details taken from the higher-resolution Pan image. Crucial point is modeling the relationships between detail coefficients of a generic MS band and the Pan image at the same resolution. Once calculated at the coarser resolution, where both types of data are available, such a model shall be extended to the finer resolution to weight the Pan details to be injected. Two injection models embedded in an "a trous" wavelet decomposition will be compared on a test set of very high resolution QuickBird MS+Pan data. One works on approximations and provides a partial unmixing of coarse MS pixels via high-resolution Pan. Another is based on spectral fidelity of original and merged MS data. Fusion comparisons on spatially degraded data, whose high-resolution MS originals are available for reference, show that the former performs better than the latter, in terms of both spatial and spectral fidelity.

Published
2004
Full Text
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41. Integration of Landsat and SAR images based on intensity modulation

Author

F. Nencini and Andrea Garzelli

Subjects
Synthetic aperture radar, Image fusion, Computer science, Multispectral image, Multispectral imagery, Sensor fusion, Multispectral pattern recognition, Speckle pattern, Wavelet, Multisensor fusion, Radar imaging, SAR imagery, Remote sensing, Image fusion, Multisensor fusion, Multispectral imagery, SAR imagery
Abstract

The paper presents a multisensor image fusion algorithm which extends the solutions proposed for pan-sharpening of multispectral (MS) data through intensity modulation, to the integration of SAR and multispectral imagery. The algorithm is based on the computation of the ratio between a speckle-filtered SAR image and a low-pass approximation, obtained by 'a-trous' wavelet decomposition, of the same filtered SAR image. This ratio modulates the intensity of the multispectral image, which is obtained by applying a linear transformation, i.e. , a generalized IHS transform, to the original MS data. The modulated intensity image substitutes the original intensity image of the multispectral data and the inverse transform is applied to obtain the fused multispectral image. Experimental results are presented on Landsat ETM+ and ERS SAR images of an urban area. The results prove accurate spectral preservation on vegetated regions, bare soil, and also on textured areas (buildings and road network) where information from SAR enhances the fused result which can be successfully applied both for display and classification purposes.

Published
2004

42. Interband detail modeling for multiresolution fusion of very high resolution multispectral images

Author

Andrea Garzelli, Bruno Aiazzi, Stefano Baronti, F. Nencini, and Luciano Alparone

Subjects
Image fusion, data fusion, multiresolution analysis (MRA), Image quality, Computer science, business.industry, Multiresolution analysis, Multispectral image, Resolution (electron density), Sharpening, injection model, Pan sharpening, high resolution remote sensing imagery, Panchromatic film, Wavelet, multiresolution, band sharpening, a trous wavelet transform (ATWT), Computer vision, a trous wavelet transform (ATWT), band sharpening, data fusion, multiresolution analysis (MRA), Artificial intelligence, business, Image resolution, Remote sensing
Abstract

This paper addresses multispectral (MS) band sharpening based on undecimated multiresolution analysis (MRA). The coarse MS bands are sharpened by injecting highpass details taken from a high resolution panchromatic (Pan) image. Besides the MRA, crucial point is modeling the relationships between detail coefficients of a generic MS band and the Pan image at the same resolution. Once calculated at the coarser resolution, where both types of data are available, such a model shall be extrapolated to the finer resolution in order to weight the Pan details to be injected. The goal is that the merged MS images are most similar to what the MS sensor would collect if it had the same resolution as the broadband Pan imager. Three injection models embedded in an "`a trous" wavelet decomposition will be described and compared on a test set of very high resolution QuickBird MS + Pan data. Fusion comparisons on spatially degraded data, of which higher-resolution true MS data are available for reference, will be presented.

Published
2004
Full Text
View/download PDF

43. A Global Quality Measurement of Pan-Sharpened Multispectral Imagery

Author

F. Nencini, Luciano Alparone, Stefano Baronti, and Andrea Garzelli

Subjects
quality index, quality assessment, Computer science, Multispectral image, quaternions algebra, Spectral bands, Data fusion, Geotechnical Engineering and Engineering Geology, Sensor fusion, multispectral imagery, Pan sharpening, Panchromatic film, Multispectral pattern recognition, multiresolution analysis, Distortion, image quality, spectral distortion, Electrical and Electronic Engineering, Image sensor, hypercomplex correlation, Data fusion, hypercomplex correlation, multispectral imagery, quality assessment, quaternions algebra, spectral distortion, Remote sensing
Abstract

This letter focuses on quality assessment of fusion of multispectral (MS) images with high-resolution panchromatic (Pan) observations. A new quality index suitable for MS imagery having four spectral bands is defined from the theory of hypercomplex numbers, or quaternions. Both spectral and radiometric distortion measurements are encapsulated in a unique measurement, simultaneously accounting for local mean bias, changes in contrast, and loss of correlation of individual bands, together with spectral distortion. Results are presented and discussed on very high-resolution QuickBird data, through comparisons between state-of-the-art and advanced MS + Pan merge algorithms.

Published
2004

45. Septic patients show significantly lower 1,25-dihydroxy vitamin D levels than trauma patients

Author

J Parodo, Giovanni Zagli, Douar S, Adriano Peris, M Ciapetti, G. Messeri, F Nencini, A Cecchi, M Andreani, A Di Filippo, Manuela Bonizzoli, and Paladini S

Subjects
Calcium metabolism, Icu patients, medicine.medical_specialty, Pediatrics, education.field_of_study, business.industry, Hospitalized patients, Population, Critical Care and Intensive Care Medicine, Gastroenterology, Immunity, Internal medicine, Poster Presentation, medicine, Vitamin D and neurology, education, business
Abstract

It is known that 1,25-dihydroxyvitamin D (vitamin D) is involved in expression control of more than 200 genes. Vitamin D affects immunity, endothelial and mucosal functions as well as glucose and calcium metabolism. Moreover, its serum deficiency (

Published
2010

46. FIRENZE, I GIORNI DEL DILUVIO

Author

F. Nencini

Subjects
Cultural Studies, Linguistics and Language, Geography, Literature and Literary Theory, Language and Linguistics
Published
1967

47. [Direct bonding in orthodontics]

Author

C, Parrini, F, Nencini, and F, Bottai

Subjects
Acid Etching, Dental, Orthodontic Appliances, Dental Bonding, Humans, Dental Enamel, Composite Resins
Published
1984

48. Pan-sharpening of multispectral images: A critical review and comparison

Author

Andrea Garzelli, F. Nencini, Luciano Alparone, Stefano Baronti, and Bruno Aiazzi

Subjects
Image fusion, Pixel, Computer science, business.industry, Multiresolution analysis, Multispectral image, Wavelet transform, Image processing, Sharpening, Data fusion, injection model, Pan sharpening, multiresolution analysis, Panchromatic film, image quality, Computer vision, Artificial intelligence, business, Image resolution
Abstract

This paper critically reviews state-of-the-art and advanced methods for multispectral (MS) and panchromatic (Pan) image fusion based on either intensity-hue-saturation (IHS) transformation, or redundant multiresolution analysis (MRA). In either cases, lower-resolution MS bands are sharpened by injecting details taken from the higher-resolution Pan image. Crucial point is modeling the relationships between detail coefficients of a generic MS band and the Pan image at the same resolution. Once calculated at the coarser resolution, where both types of data are available, such a model shall be extended to the finer resolution to weight the Pan details to be injected. Two injection models embedded in an "à trous" wavelet decomposition will be compared on a test set of very high resolution QuickBird MS+Pan data. One works on approximations and provides a partial unmixing of coarse MS pixels via high-resolution Pan. Another is based on spectral fidelity of original and merged MS data. Fusion comparisons on spatially degraded data, whose high-resolution MS originals are available for reference, show that the former performs better than the latter, in terms of both spatial and spectral fidelity.

49. Interband structure modeling for oversampled multiresolution analysis-based Pan-sharpening of very high resolution multispectral images

Author

Stefano Baronti, Bruno Aiazzi, Andrea Garzelli, F. Nencini, and Luciano Alparone

Subjects
multiresolution analysis (MRA), Multiresolution analysis, Multispectral image, Sharpening, Wavelet, urban remote sensing, band sharpening, QuickBird, Computer vision, ARSIS, a-trous wavelet transform (ATWT), band sharpening, data fusion, interband structure modeling (IBSM), multiresolution analysis (MRA), QuickBird, statistical modeling of wavelet coefficients, urban remote sensing, very high resolution multispectral imagery, a-trous wavelet transform (ATWT), data fusion, Pixel, very high resolution multispectral imagery, business.industry, Pattern recognition, ARSIS, Sensor fusion, "a trous" wavelet transform (ATWT), Panchromatic film, statistical modeling of wavelet coefficients, Geography, Artificial intelligence, High-pass filter, business, interband structure modeling (IBSM)
Abstract

This paper addresses the modeling of wavelet coefficients for multispectral (MS) band sharpening based on undecimated multiresolution analysis (MRA). The coarse MS bands are sharpened by injecting highpass details taken from a high resolution panchromatic (Pan) image. Besides the MRA, crucial point is modeling the relationships between detail coefficients of a generic MS band and the Pan image at the same resolution. The goal is that the merged MS images are most similar to what the MS sensor would collect if it had the same resolution as the broadband Pan imager. Three injection models embedded in an "a trous" wavelet decomposition will be described and compared on a test set of very high resolution QuickBird MS+Pan data. Two models work on approximation and detail coefficients, respectively, and provide a certain degree of unmixing of coarse MS pixels. The third model is based on spectral fidelity of the merged image to the (resampled) original MS data, that is, no unmixing is attempted. Fusion comparisons on spatially degraded data, of which higher-resolution true MS data are available for reference, show that the former two models yield better results than the latter, in terms of both radiometric and spectral fidelity. The latter, however, yields a reliable sharpening unaffected by local artifacts, regardless of landscape complexity. When local statistics of wavelet coefficients are utilized, the model estimated on approximation yields slightly better but considerably stabler results than that calculated starting from bandpass details.

50. Post-translational modifications of fibrinogen: implications for clotting, fibrin structure and degradation.

Author

Nencini F, Bettiol A, Argento FR, Borghi S, Giurranna E, Emmi G, Prisco D, Taddei N, Fiorillo C, and Becatti M

Subjects
Humans, Animals, Glycosylation, Thrombosis metabolism, Proteolysis, Phosphorylation, Fibrinolysis physiology, Protein Processing, Post-Translational, Blood Coagulation physiology, Fibrin metabolism, Fibrin chemistry, Fibrinogen metabolism, Fibrinogen chemistry
Abstract

Fibrinogen, a blood plasma protein with a key role in hemostasis and thrombosis, is highly susceptible to post-translational modifications (PTMs), that significantly influence clot formation, structure, and stability. These PTMs, which include acetylation, amidation, carbamylation, citrullination, dichlorination, glycation, glycosylation, guanidinylation, hydroxylation, homocysteinylation, malonylation, methylation, nitration, oxidation, phosphorylation and sulphation, can alter fibrinogen biochemical properties and affect its functional behavior in coagulation and fibrinolysis. Oxidation and nitration are notably associated with oxidative stress, impacting fibrin fiber formation and promoting the development of more compact and resistant fibrin networks. Glycosylation and glycation contribute to altered fibrinogen structural properties, often resulting in changes in fibrin clot density and susceptibility to lysis, particularly in metabolic disorders like diabetes. Acetylation and phosphorylation, influenced by medications such as aspirin, modulate clot architecture by affecting fiber thickness and clot permeability. Citrullination and homocysteinylation, although less studied, are linked to autoimmune conditions and cardiovascular diseases, respectively, affecting fibrin formation and stability. Understanding these modifications provides insights into the pathophysiology of thrombotic disorders and highlights potential therapeutic targets. This review comprehensively examines the current literature on fibrinogen PTMs, their specific sites, biochemical pathways, and their consequences on fibrin clot architecture, clot formation and clot lysis., (© 2024. The Author(s).)

Published
2024
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