halirutan

Head of Image Processing at Saxonian Incubator for Clinical Translation
Last active on Stack Overflow 7 days ago
Favorite editor: Emacs • First computer: C64
This user is part of the top 10% Stack Overflow answerers in this technology
top
10%
This user is part of the top 20% Stack Overflow answerers in this technology
top
20%

Are you sure you want to do that?

Cancel Yes, delete it
Position Jan 2005 → Current (13 years, 10 months)
Image Processing Core Unit at Saxonian Incubator for Clinical Translation

In short: I'm analyzing and quantifying image- and volume-data of regenerative experiments. My work mainly focuses on the development and implementation of image processing algorithms to turn CT-, MRI-, LSM-, bright-field microscopy-, or whatever data into numbers and graphs which objectively quantify the result of experiments. Since the experimenters are mostly biologists or medical scientists, I have the big opportunity to work in a highly interdisciplinary field everyday.

At work I'm writing algorithms for image/data processing, modelling and image/data quantification. To import data from one of our optical coherence tomographs , I wrote a Mathematica importer for the Heidelberg Spectralis OCT. The package is available on GitHub.

Additionally, here are public projects I'm working on:

In short: I'm analyzing and quantifying image- and volume-data of regenerative experiments. My work mainly focuses on the development and implementation of image processing algorithms to turn CT-, MRI-, LSM-, bright-field microscopy-, or whatever data into numbers and graphs which objectively quantify the result of experiments. Since the experimenters are mostly biologists or medical scientists, I have the big opportunity to work in a highly interdisciplinary field everyday.

At work I'm writing algorithms for image/data processing, modelling and image/data quantification. To import data from one of our optical coherence tomographs , I wrote a Mathematica importer for the Heidelberg Spectralis OCT. The package is available on GitHub.

Additionally, here are public projects I'm working on:

Are you sure you want to do that?

Cancel Yes, delete it
Feature or Apps

This is an easy to install open-source Mathematica plug-in for IntelliJ IDEA, probably the most sophisticated Java IDE ever.

Creator and main developer

This is an easy to install open-source Mathematica plug-in for IntelliJ IDEA, probably the most sophisticated Java IDE ever.

Creator and main developer

Are you sure you want to do that?

Cancel Yes, delete it
Open source Jan 2014 → Current (4 years, 10 months)

This Mathematica package lets you import data from the Heidelberg Spectralis OCT

This Mathematica package lets you import data from the Heidelberg Spectralis OCT

Are you sure you want to do that?

Cancel Yes, delete it
Open source Oct 2013 → Current (5 years)
Last commit on Sep 05, 18
12 Commits / 1,053 ++ / 116 --

This browser user-script adds additional buttons to the Q&A editor on mathematica.stackexchange.

Developer

This browser user-script adds additional buttons to the Q&A editor on mathematica.stackexchange.

Developer

Are you sure you want to do that?

Cancel Yes, delete it
Open source Jun 2013 → Current (5 years, 4 months)

This is basically version 2 of the SEUploader which is broken in its current state.

Szabolcs is the main developer of this project, but since the whole package was broken after an update of stackexchange, I took over and fixed the java code.

This is basically version 2 of the SEUploader which is broken in its current state.

Szabolcs is the main developer of this project, but since the whole package was broken after an update of stackexchange, I took over and fixed the java code.

Are you sure you want to do that?

Cancel Yes, delete it
Open source May 2013 → Current (5 years, 6 months)
Last commit on Jul 28, 18
478 Commits / 438,158 ++ / 256,328 --

Mathematica support for IntelliJIDEA. Includes syntax highlighting, function completion, documentation lookup and more.

I'm the main developer and wrote almost all code. Nevertheless, there were quite some users who helped by reporting bugs. The most help comes from rm-rf who not only tests stuff but contributes to some features.

Mathematica support for IntelliJIDEA. Includes syntax highlighting, function completion, documentation lookup and more.

I'm the main developer and wrote almost all code. Nevertheless, there were quite some users who helped by reporting bugs. The most help comes from rm-rf who not only tests stuff but contributes to some features.

Are you sure you want to do that?

Cancel Yes, delete it
Open source Dec 2012 → Current (5 years, 10 months)

Changes the behavior of the auto-completion in Mathematica version 9 so that camel-humps completion can be used.

Changes the behavior of the auto-completion in Mathematica version 9 so that camel-humps completion can be used.

Are you sure you want to do that?

Cancel Yes, delete it
Open source Dec 2012 → Current (5 years, 11 months)

Creates a palette for displaying Attributes and Options of Mathematica functions

Main developer

Creates a palette for displaying Attributes and Options of Mathematica functions

Main developer

Are you sure you want to do that?

Cancel Yes, delete it
Open source Jan 2012 → Current (6 years, 10 months)

This is a plug-in for Google-code-prettify to support the Mathematica language. I developed it when we were in beta with mathematica.stackexchange.com. Now it is up and running on Mathematica.SE. It highlights every code-block there.

Main developer

This is a plug-in for Google-code-prettify to support the Mathematica language. I developed it when we were in beta with mathematica.stackexchange.com. Now it is up and running on Mathematica.SE. It highlights every code-block there.

Main developer

Are you sure you want to do that?

Cancel Yes, delete it
Blogs or videos

QR Codes, Viewpoints And Curved SurfacesQR code and two dimensional bar codes, news, views and analysis.

QR Codes, Viewpoints And Curved SurfacesQR code and two dimensional bar codes, news, views and analysis.

Are you sure you want to do that?

Cancel Yes, delete it
Blogs or videos

One important application of image processing in medicine is to register tissue samples onto another. Registering these highly textured images with non-parametric methods sometimes leads to solutions which are known to be suboptimal. We show a projection technique for unwanted vortices in the displacement field. A new strategy is presented which does not change the registration method itself but continuously correct the solution during the registration process.

One important application of image processing in medicine is to register tissue samples onto another. Registering these highly textured images with non-parametric methods sometimes leads to solutions which are known to be suboptimal. We show a projection technique for unwanted vortices in the displacement field. A new strategy is presented which does not change the registration method itself but continuously correct the solution during the registration process.

Are you sure you want to do that?

Cancel Yes, delete it
Blogs or videos

Basal cell carcinoma (BCC) is the most common malignant skin cancer. For a deeper insight into the specific growth patterns of the tumorous tissue in BCC, we have focused on the development of a novel automated image-processing chain for 3D reconstruction of BCC using histopathological serial sections. For fully automatic delineation of the tumor within the tissue, we apply a fuzzy c-means segmentation method. We used a novel multi-grid form of the non-linear registration introduced by Braumann and Kuska in 2005 effectively suppressing registration runs into local minima (possibly caused by diffuse nature of the tumor). Our method was successfully applied in a proof-of-principle study for automated reconstruction.

Basal cell carcinoma (BCC) is the most common malignant skin cancer. For a deeper insight into the specific growth patterns of the tumorous tissue in BCC, we have focused on the development of a novel automated image-processing chain for 3D reconstruction of BCC using histopathological serial sections. For fully automatic delineation of the tumor within the tissue, we apply a fuzzy c-means segmentation method. We used a novel multi-grid form of the non-linear registration introduced by Braumann and Kuska in 2005 effectively suppressing registration runs into local minima (possibly caused by diffuse nature of the tumor). Our method was successfully applied in a proof-of-principle study for automated reconstruction.

Are you sure you want to do that?

Cancel Yes, delete it
182
Top post Jun 2013

Are you sure you want to do that?

Cancel Yes, delete it
27
Top post Oct 2012

Are you sure you want to do that?

Cancel Yes, delete it
28
Top post Oct 2012

Are you sure you want to do that?

Cancel Yes, delete it
25
Top post Oct 2012

Are you sure you want to do that?

Cancel Yes, delete it
52
Top post Feb 2012

Are you sure you want to do that?

Cancel Yes, delete it
43
Top post Jan 2012

Are you sure you want to do that?

Cancel Yes, delete it
Position Jan 2006 → Dec 2006 (1 year)
Software Developer at SMC Trust

Side job beside university: Development of security software for online authentication. I was responsible for developing a java interface for ICC's that were driven by a C++ core. Therefore, big parts of the library contained JNI code.

Side job beside university: Development of security software for online authentication. I was responsible for developing a java interface for ICC's that were driven by a C++ core. Therefore, big parts of the library contained JNI code.

Are you sure you want to do that?

Cancel Yes, delete it
Education 1999 → 2006
Master's degree, University Leipzig

"I C Frantic People" -- Our team for joining the International Contest for Functional Programming every year.

See here: Place 31. in the overall ranking http://www.boundvariable.org/scoreboard.shtml

"I C Frantic People" -- Our team for joining the International Contest for Functional Programming every year.

See here: Place 31. in the overall ranking http://www.boundvariable.org/scoreboard.shtml

Are you sure you want to do that?

Cancel Yes, delete it
Position Mar 2002 → Dec 2005 (3 years, 10 months)
Freelancer at Computer Leipzig

Side job beside university: Assembling computer systems and setting up networks. Developing data exchange and management software.

Side job beside university: Assembling computer systems and setting up networks. Developing data exchange and management software.

Are you sure you want to do that?

Cancel Yes, delete it
Education 1999 → 2005
Diploma in Computer Science/ minor subj experimental physics, Leipzig, Germany

Recommended reading

by Rafael C. Gonzalez, Richard E. Woods
by Stanley B. Lippman, Josée Lajoie, Barbara E. Moo
by Andrew Koenig, Barbara E. Moo
by Brian W. Kernighan, Dennis M. Ritchie
by Graham Sellers, Richard S Wright, Nicholas Haemel
by Dave Shreiner, Graham Sellers, John M. Kessenich, Bill M. Licea-Kane
by Dave Shreiner, Bill The Khronos OpenGL ARB Working Group
by William H. Press, Saul A. Teukolsky, William T. Vetterling, Brian P. Flannery
by Alfred V. Aho, Monica S. Lam, Ravi Sethi, Jeffrey D. Ullman
by Marshall P. Cline, Greg Lomow, Mike Girou
by David Mumford, Caroline Series, David Wright