CELLmicrocosmos 4 Posters
[Conference] [Prize: VizBi Travel Fellowship]" rel="sexylightbox[cc_6480dfc6c2ebb]">
[Conference] [Prize: VizBi Travel Fellowship]" title="VizBi 2010" class="cloudcarousel" width="150" height="214" />
[Conference]" rel="sexylightbox[cc_6480dfc6c2ebb]">
[Conference]" title="Moscow Conference on Computational Molecualar Biology 2011" class="cloudcarousel" width="150" height="214" />
[Conference]" rel="sexylightbox[cc_6480dfc6c2ebb]">
[Conference]" title="NETTAB 2012" class="cloudcarousel" width="150" height="214" />
[Conference]" rel="sexylightbox[cc_6480dfc6c2ebb]">
[Conference]" title="International Symposium on Integrative Bioinformatics 2013" class="cloudcarousel" width="150" height="214" />
![Cell modelling based on enzymatic localization at the cellular and molecular level derived from life science-relevant data<br><a target='_blank' href='http://cellmicrocosmos.org/images/posters/cm4/Cm_2010_preview_poster_VizBi2010__1_0.pdf'>[PDF]</a> <a rel=](/cache/acc_fdbe6a32cd7a0f98bea7675f24a24831_150_214.jpg)
![Visualization and Analysis of a Cardio Vascular Disease- and MUPP1-related Biological Network combining Text Mining and Data Warehouse Approaches<br><a target='_blank' href='http://cellmicrocosmos.org/images/posters/cm4/Cm_4_2_CVD_poster_MCCMB_2011__1_1.pdf'>[PDF]</a> <a rel=](/cache/acc_347f0f009ab7bbb2436e0edd9d20f386_150_214.jpg)
![Prediction and 3D visualization of biological networks using cytological disease mapping<br> <a target='_blank' href='http://cellmicrocosmos.org/images/posters/cm4/Cm_4_2_CVD_poster_Nettab_2012__1_0lq.pdf'>[PDF]</a> <a rel=](/cache/acc_cf01c4f1728b396670b1be418eb44dda_150_214.jpg)
![CELLmicrocosmos 4.2 PathwayIntegration in 2013<br><a target='_blank' href='http://cellmicrocosmos.org/images/posters/cm4/Cm_4_2_IB_2013__1_0.pdf'>[PDF]</a> <a rel=](/cache/acc_280d4dd82ccb3bf1991de2d8a5296c14_150_214.jpg)
project
The aim of CELLmicrocosmos is the interactive stereoscopic visualization of biological cells for a better understanding of their internal structures and their functioning.
Based on microscopic datasets, biological cells are reconstructed in 3D models. Via Virtual Reality (VR) techniques they can be explored interactively for educational and scientific purposes. [more]
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- Details
- Written by bjoern
- Category: Cm project
- Published: 01 January 2018
- Hits: 2714