<p>Regularization has been introduced to electron tomography for enhancing the reconstruction quality. Since over-regularization smears out sharp edges and under-regularization leaves the image too noisy, finding the optimal regularization strength is crucial. To this end, one can either manually tune regularization parameters by trial and error, or compute reconstructions for a large set of candidate values and compare them to a reference image. Both are cumbersome in practice. In this paper, we propose an image quality metric Q to quantify the reconstruction quality for automatically determining the optimal regularization parameter without a reference image. Specifically, we use the oriented structure strength described by the highest two...
Electron micrography (EM) is an important method for determining the three-dimensional (3D) structur...
Electron tomography in the physical sciences has become a powerful tool for nanomaterial analysis. ...
In this paper, we present a novel iterative reconstruction algorithm for discrete tomography (DT) na...
Regularization has been introduced to electron tomography for enhancing the reconstruction quality. ...
Despite much progress in electron tomography, quantitative assessment of resolution has remained a p...
An automatic procedure for electron tomography is presented. This procedure is adapted for specimens...
Many material and biological samples in scientific imaging are characterized by non-local repeating ...
Electron tomography (ET) of biological samples is used to study the organization and the structure o...
Electron tomography (ET) of biological samples is used to study the organization and the structure o...
In multi-modal electron tomography, tilt series of several signals such as X-ray spectra, electron e...
Modern electron tomography has progressed to higher resolution at lower doses by leveraging compress...
SummaryThe reference-free averaging of three-dimensional electron microscopy (3D-EM) reconstructions...
SummaryRecent innovations in specimen preparation, data collection, and image processing have led to...
Electron tomography is a technique to obtain 3D nanoscale image reconstructions from 2D electron mic...
© 2014 Dr. Mauro MaiorcaElectron Tomography is an established technique for producing detailed 3D im...
Electron micrography (EM) is an important method for determining the three-dimensional (3D) structur...
Electron tomography in the physical sciences has become a powerful tool for nanomaterial analysis. ...
In this paper, we present a novel iterative reconstruction algorithm for discrete tomography (DT) na...
Regularization has been introduced to electron tomography for enhancing the reconstruction quality. ...
Despite much progress in electron tomography, quantitative assessment of resolution has remained a p...
An automatic procedure for electron tomography is presented. This procedure is adapted for specimens...
Many material and biological samples in scientific imaging are characterized by non-local repeating ...
Electron tomography (ET) of biological samples is used to study the organization and the structure o...
Electron tomography (ET) of biological samples is used to study the organization and the structure o...
In multi-modal electron tomography, tilt series of several signals such as X-ray spectra, electron e...
Modern electron tomography has progressed to higher resolution at lower doses by leveraging compress...
SummaryThe reference-free averaging of three-dimensional electron microscopy (3D-EM) reconstructions...
SummaryRecent innovations in specimen preparation, data collection, and image processing have led to...
Electron tomography is a technique to obtain 3D nanoscale image reconstructions from 2D electron mic...
© 2014 Dr. Mauro MaiorcaElectron Tomography is an established technique for producing detailed 3D im...
Electron micrography (EM) is an important method for determining the three-dimensional (3D) structur...
Electron tomography in the physical sciences has become a powerful tool for nanomaterial analysis. ...
In this paper, we present a novel iterative reconstruction algorithm for discrete tomography (DT) na...