Pinned Repositories
JabRef-Browser-Extension
Browser extension for JabRef to allow importing of new items directly from the browser.
CM2003_DL_Medical_Images
GitHub Repo for KTH CM2003 Deep Learning Methods for Medical Image Analysis.
cm2013_sleep_staging
Project to predict sleep stages based on EEG, ECG, EOG data. Signals are filtered using different methods (Wavelet, Butterworth). The prediction was done using feature extraction in combination with SVM, Shallow NN and CNN.
CM2015_proj1
Verilog Code for controlling and reading out Hamamatsu S11865-64G X-Ray sensor with an Olimex iCE40HX1K FPGA and additional ADC
CM2016_Tissue_Characterization
Tissue characteriazation of a bacon slab. The MRI image was captures using a Philips Ingenia 3T MRI scanner. In this Jupyter notebook, a KNN algorithm is used to segment fat- and muscle tissue. Total fat and muscle volume and tissue thickness has been estimated.
femur_segmentation_atlas
Atlas based segmentation of the left femur and pelvis. Registration is done in a linear and non-linear fashion.
HL2027_recon
HL2027_image_analysis_and_reconstruction
lassestahnke's Repositories
lassestahnke/cm2013_sleep_staging
Project to predict sleep stages based on EEG, ECG, EOG data. Signals are filtered using different methods (Wavelet, Butterworth). The prediction was done using feature extraction in combination with SVM, Shallow NN and CNN.
lassestahnke/CM2003_DL_Medical_Images
GitHub Repo for KTH CM2003 Deep Learning Methods for Medical Image Analysis.
lassestahnke/HL2027_recon
HL2027_image_analysis_and_reconstruction
lassestahnke/CM2015_proj1
Verilog Code for controlling and reading out Hamamatsu S11865-64G X-Ray sensor with an Olimex iCE40HX1K FPGA and additional ADC
lassestahnke/CM2016_Tissue_Characterization
Tissue characteriazation of a bacon slab. The MRI image was captures using a Philips Ingenia 3T MRI scanner. In this Jupyter notebook, a KNN algorithm is used to segment fat- and muscle tissue. Total fat and muscle volume and tissue thickness has been estimated.
lassestahnke/femur_segmentation_atlas
Atlas based segmentation of the left femur and pelvis. Registration is done in a linear and non-linear fashion.