Estimation of adaptive parameters for satellite image deconvolution

Satellite image deconvolution based on nonlocal means

Applied Optics ◽

10.1364/ao.49.006286 ◽

2010 ◽

Vol 49 (32) ◽

pp. 6286 ◽

Cited By ~ 12

Author(s):

Ming Zhao ◽

Wei Zhang ◽

Zhile Wang ◽

Qingyu Hou

Keyword(s):

Satellite Image ◽

Image Deconvolution ◽

Nonlocal Means

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Satellite image deconvolution using complex wavelet packets

Proceedings 2000 International Conference on Image Processing (Cat. No.00CH37101) ◽

10.1109/icip.2000.899579 ◽

2002 ◽

Cited By ~ 24

Author(s):

A. Jalobeanu ◽

L. Blanc-Feraud ◽

J. Zerubia

Keyword(s):

Satellite Image ◽

Wavelet Packets ◽

Image Deconvolution ◽

Complex Wavelet

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Improvement of Satellite Image Resolution Using Discrete Wavelet Transform

International Journal of Scientific Research ◽

10.15373/22778179/feb2014/55 ◽

2012 ◽

Vol 3 (2) ◽

pp. 170-173

Author(s):

R.Srithulasiraman R.Srithulasiraman ◽

◽

M.Gobinath M.Gobinath

Keyword(s):

Wavelet Transform ◽

Discrete Wavelet Transform ◽

Satellite Image ◽

Image Resolution ◽

Discrete Wavelet

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Texture Features Extraction and Backtracking Search Optimization Algorithm for Satellite Image Clustering

International Review of Aerospace Engineering (IREASE) ◽

10.15866/irease.v12i5.15224 ◽

2019 ◽

Vol 12 (5) ◽

pp. 222

Author(s):

Nourredine Boudali ◽

Hadria Fizazi ◽

Meriem Abidi

Keyword(s):

Optimization Algorithm ◽

Satellite Image ◽

Texture Features ◽

Features Extraction ◽

Image Clustering ◽

Backtracking Search ◽

Search Optimization ◽

Backtracking Search Optimization Algorithm

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Blind Image Deconvolution Using Specified 2-D HPF for Feature Extraction and Conjugate Gradient Method in Frequency Domain

IEICE Transactions on Fundamentals of Electronics Communications and Computer Sciences ◽

10.1587/transfun.e100.a.846 ◽

2017 ◽

Vol E100.A (3) ◽

pp. 846-853

Author(s):

Takanori FUJISAWA ◽

Masaaki IKEHARA

Keyword(s):

Feature Extraction ◽

Frequency Domain ◽

Conjugate Gradient Method ◽

Conjugate Gradient ◽

Gradient Method ◽

Image Deconvolution ◽

Blind Image Deconvolution ◽

Blind Image

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Non-Blind Image Deconvolution Based on “Ringing” Removal Using Convolutional Neural Network

Electronic Imaging ◽

10.2352/issn.2470-1173.2020.10.ipas-180 ◽

2020 ◽

Vol 2020 (10) ◽

pp. 181-1-181-7

Author(s):

Takahiro Kudo ◽

Takanori Fujisawa ◽

Takuro Yamaguchi ◽

Masaaki Ikehara

Keyword(s):

Neural Network ◽

Convolutional Neural Network ◽

Network Architecture ◽

Large Scale ◽

Blind Deconvolution ◽

Training Dataset ◽

Image Deconvolution ◽

Classic Problem ◽

Key Points ◽

Blind Image

Image deconvolution has been an important issue recently. It has two kinds of approaches: non-blind and blind. Non-blind deconvolution is a classic problem of image deblurring, which assumes that the PSF is known and does not change universally in space. Recently, Convolutional Neural Network (CNN) has been used for non-blind deconvolution. Though CNNs can deal with complex changes for unknown images, some CNN-based conventional methods can only handle small PSFs and does not consider the use of large PSFs in the real world. In this paper we propose a non-blind deconvolution framework based on a CNN that can remove large scale ringing in a deblurred image. Our method has three key points. The first is that our network architecture is able to preserve both large and small features in the image. The second is that the training dataset is created to preserve the details. The third is that we extend the images to minimize the effects of large ringing on the image borders. In our experiments, we used three kinds of large PSFs and were able to observe high-precision results from our method both quantitatively and qualitatively.

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HEALTHINESS OF OIL PALM PLANTATION TOWARDS SUSTAINABILITY OF ENVIRONMENT

Malaysian Journal of Sustainable Environment ◽

10.24191/myse.v7i1.8905 ◽

2020 ◽

Vol 7 (1) ◽

pp. 21

Author(s):

Faradina Marzukhi ◽

Nur Nadhirah Rusyda Rosnan ◽

Md Azlin Md Said

Keyword(s):

Oil Palm ◽

Vegetation Index ◽

Normalized Difference Vegetation Index ◽

Satellite Image ◽

Vegetation Indices ◽

Soil Nutrient ◽

Oil Palm Plantation ◽

Sustainable Environment ◽

Moisture Analysis ◽

The Relationship

The aim of this study is to analyse the relationship between vegetation indices of Normalized Difference Vegetation Index (NDVI) and soil nutrient of oil palm plantation at Felcra Nasaruddin Bota in Perak for future sustainable environment. The satellite image was used and processed in the research. By Using NDVI, the vegetation index was obtained which varies from -1 to +1. Then, the soil sample and soil moisture analysis were carried in order to identify the nutrient values of Nitrogen (N), Phosphorus (P) and Potassium (K). A total of seven soil samples were acquired within the oil palm plantation area. A regression model was then made between physical condition of the oil palms and soil nutrients for determining the strength of the relationship. It is hoped that the risk map of oil palm healthiness can be produced for various applications which are related to agricultural plantation.

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Improve the Spatial Resolution of Multispectral satellite Image using Different Image Sharpening Techniques

Iraqi Journal of Science ◽

10.24996/ijs.2018.59.1a.24 ◽

2018 ◽

Vol 59 (1A) ◽

Keyword(s):

Spatial Resolution ◽

Satellite Image ◽

Image Sharpening ◽

Multispectral Satellite Image

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Analysing vegetation cover of an area using established Green Index from Satellite Image

International Journal of Computer Sciences and Engineering ◽

10.26438/ijcse/v7i6.11441148 ◽

2019 ◽

Vol 7 (6) ◽

pp. 1144-1148

Author(s):

S. Manna ◽

S. Mitra

Keyword(s):

Vegetation Cover ◽

Satellite Image ◽

Green Index

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Random Forest (RF) and Artificial Neural Network (ANN) Algorithms for LULC Mapping

Engineering and Technology Journal ◽

10.30684/etj.v38i4a.399 ◽

2020 ◽

Vol 38 (4A) ◽

pp. 510-514

Author(s):

Tay H. Shihab ◽

Amjed N. Al-Hameedawi ◽

Ammar M. Hamza

Keyword(s):

Neural Network ◽

Remote Sensing ◽

Artificial Neural Network ◽

Random Forest ◽

Satellite Image ◽

Landsat 8 ◽

Optical Remote Sensing ◽

Data Set ◽

Artificial Neural ◽

Artificial Neural Network Ann

In this paper to make use of complementary potential in the mapping of LULC spatial data is acquired from LandSat 8 OLI sensor images are taken in 2019. They have been rectified, enhanced and then classified according to Random forest (RF) and artificial neural network (ANN) methods. Optical remote sensing images have been used to get information on the status of LULC classification, and extraction details. The classification of both satellite image types is used to extract features and to analyse LULC of the study area. The results of the classification showed that the artificial neural network method outperforms the random forest method. The required image processing has been made for Optical Remote Sensing Data to be used in LULC mapping, include the geometric correction, Image Enhancements, The overall accuracy when using the ANN methods 0.91 and the kappa accuracy was found 0.89 for the training data set. While the overall accuracy and the kappa accuracy of the test dataset were found 0.89 and 0.87 respectively.

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