​
Login / Signup
Tim Jerman
ORCID
Publication Activity (10 Years)
Years Active: 2015-2020
Publications (10 Years): 7
Top Topics
Intracranial Aneurysms
Detection Accuracy
Cutting Plane
Multiscale
Top Venues
Medical Imaging: Image Processing
Brainles@MICCAI
ISBI
Medical Imaging: Computer-Aided Diagnosis
</>
Publications
</>
Tim Jerman
,
Aichi Chien
,
Franjo Pernus
,
Bostjan Likar
,
Ziga Spiclin
Automated Cutting Plane Positioning for Intracranial Aneurysm Quantification.
IEEE Trans. Biomed. Eng.
67 (2) (2020)
Ziga Bizjak
,
Tim Jerman
,
Bostjan Likar
,
Franjo Pernus
,
Aichi Chien
,
Ziga Spiclin
Registration based detection and quantification of intracranial aneurysm growth.
Medical Imaging: Computer-Aided Diagnosis
(2019)
Domen Ravnik
,
Tim Jerman
,
Franjo Pernus
,
Bostjan Likar
,
Ziga Spiclin
Dataset variability leverages white-matter lesion segmentation performance with convolutional neural network.
Medical Imaging: Image Processing
(2018)
Tim Jerman
,
Franjo Pernus
,
Bostjan Likar
,
Ziga Spiclin
Aneurysm detection in 3D cerebral angiograms based on intra-vascular distance mapping and convolutional neural networks.
ISBI
(2017)
Tim Jerman
,
Franjo Pernus
,
Bostjan Likar
,
Ziga Spiclin
,
Aichi Chien
Automatic cutting plane identification for computer-aided analysis of intracranial aneurysms.
ICPR
(2016)
Tim Jerman
,
Franjo Pernus
,
Bostjan Likar
,
Ziga Spiclin
Enhancement of Vascular Structures in 3D and 2D Angiographic Images.
IEEE Trans. Medical Imaging
35 (9) (2016)
Tim Jerman
,
Franjo Pernus
,
Bostjan Likar
,
Ziga Spiclin
Blob Enhancement and Visualization for Improved Intracranial Aneurysm Detection.
IEEE Trans. Vis. Comput. Graph.
22 (6) (2016)
Tim Jerman
,
Franjo Pernus
,
Bostjan Likar
,
Ziga Spiclin
Computer-Aided Detection and Quantification of Intracranial Aneurysms.
MICCAI (2)
(2015)
Tim Jerman
,
Franjo Pernus
,
Bostjan Likar
,
Ziga Spiclin
Beyond Frangi: an improved multiscale vesselness filter.
Medical Imaging: Image Processing
(2015)
Tim Jerman
,
Alfiia Galimzianova
,
Franjo Pernus
,
Bostjan Likar
,
Ziga Spiclin
Combining Unsupervised and Supervised Methods for Lesion Segmentation.
Brainles@MICCAI
(2015)