An imaging mass spectrometer is an analytical instrument that can determine the spatial distribution of chemical compounds on complex surfaces. The output of the device is a multi-spectral datacube; a three-dimensional (3D) dataset in which the xy-dimension represents the surface position and the z-dimension represents the mass spectral distribution. Analysts try to discover correlations in spectral profiles and spatial distributions inside a datacube. New technological developments allow mass spectrometric imaging on a higher spatial and spectral resolution. In this paper we present a parametric visualization technique which allows an analyst to examine spectral and spatially correlated patterns on the highest possible resolution. Principa...
The large size of the hyperspectral datasets that are produced with modern mass spectrometric imagin...
This thesis presents a toolbox for the exploratory analysis of multivariate data, in particular prot...
Abstract Background Imaging Mass Spectrometry (IMS) provides a means to measure the spatial distribu...
An imaging mass spectrometer is an analytical instrument that can determine the spatial distribution...
An imaging mass spectrometer is an analytical instrument that can determine the spatial distribution...
Imaging mass spectrometry is an innovative technique that combines high-resolution microscopic imagi...
Imaging mass spectrometry is a technique to determine of which materials a small, physical sample is...
Imaging mass spectrometry is a technique to determine of which materials a small, physical sample is...
The output resolution of imaging mass spectrometers is increasing rapidly due to advances in enginee...
Mass spectrometry imaging (MSI) enables two- and three-dimensional overviews of hundreds of unlabell...
Matrix-assisted laser desorption/ionization mass spectrometry imaging is a technique for direct anal...
The acquisition of localized molecular spectra with mass spectrometry imaging (MSI) has a great, but...
Multivariate statistical methods, such as Principal Component Analysis (PCA), have been used extensi...
The goal of this work was to develop a technique to enhance contrast within the spectral domain so t...
The large size of the hyperspectral datasets that are produced with modern mass spectrometric imagin...
This thesis presents a toolbox for the exploratory analysis of multivariate data, in particular prot...
Abstract Background Imaging Mass Spectrometry (IMS) provides a means to measure the spatial distribu...
An imaging mass spectrometer is an analytical instrument that can determine the spatial distribution...
An imaging mass spectrometer is an analytical instrument that can determine the spatial distribution...
Imaging mass spectrometry is an innovative technique that combines high-resolution microscopic imagi...
Imaging mass spectrometry is a technique to determine of which materials a small, physical sample is...
Imaging mass spectrometry is a technique to determine of which materials a small, physical sample is...
The output resolution of imaging mass spectrometers is increasing rapidly due to advances in enginee...
Mass spectrometry imaging (MSI) enables two- and three-dimensional overviews of hundreds of unlabell...
Matrix-assisted laser desorption/ionization mass spectrometry imaging is a technique for direct anal...
The acquisition of localized molecular spectra with mass spectrometry imaging (MSI) has a great, but...
Multivariate statistical methods, such as Principal Component Analysis (PCA), have been used extensi...
The goal of this work was to develop a technique to enhance contrast within the spectral domain so t...
The large size of the hyperspectral datasets that are produced with modern mass spectrometric imagin...
This thesis presents a toolbox for the exploratory analysis of multivariate data, in particular prot...
Abstract Background Imaging Mass Spectrometry (IMS) provides a means to measure the spatial distribu...