| [1] |
Dürr, O., and Sick, B.
Single-cell phenotype classification using deep convolutional neural
networks.
Journal of Biomolecular Screening (2016).
[ bib |
DOI |
arXiv |
http ]
Deep learning methods are currently outperforming traditional state-of-the-art computer vision algorithms in diverse applications and recently even surpassed human performance in object recognition. Here we demonstrate the potential of deep learning methods to high-content screening-based phenotype classification. We trained a deep learning classifier in the form of convolutional neural networks with approximately 40,000 publicly available single-cell images from samples treated with compounds from four classes known to lead to different phenotypes. The input data consisted of multichannel images. The construction of appropriate feature definitions was part of the training and carried out by the convolutional network, without the need for expert knowledge or handcrafted features. We compare our results against the recent state-of-the-art pipeline in which predefined features are extracted from each cell using specialized software and then fed into various machine learning algorithms (support vector machine, Fisher linear discriminant, random forest) for classification. The performance of all classification approaches is evaluated on an untouched test image set with known phenotype classes. Compared to the best reference machine learning algorithm, the misclassification rate is reduced from 8.9% to 6.6%.
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| [2] | Dürr, O., Pauchard, Y., Browarnik, D., Axthelm, R., and Loeser, M. Deep learning on a raspberry pi for real time face recognition. In Eurographics (Posters) (2015), pp. 11-12. [ bib ] |
| [3] | Franzini, A., Baty, F., Macovei, I. I., Dürr, O., Droege, C., Betticher, D., Grigoriu, B. D., Klingbiel, D., Zappa, F., and Brutsche, M. H. Gene expression signatures predictive of bevacizumab/erlotinib therapeutic benefit in advanced nonsquamous non-small cell lung cancer patients (sakk 19/05 trial). Clinical Cancer Research 21, 23 (2015), 5253-5263. [ bib ] |
| [4] | Cieliebak, M., Dürr, O., and Uzdilli, F. Meta-classifiers easily improve commercial sentiment detection tools. In Language Resources and Evaluation Conference (LREC) (2014), pp. 3100-3104. [ bib ] |
| [5] | Franzini, A., Dürr, O., Baty, F., and Brutsche, M. Tumor-associated stromal gene expression signatures predict therapeutic response to erlotinib/bevacizumab in non-small cell lung cancer (nsclc). European Respiratory Journal 44, Suppl 58 (2014), P821. [ bib ] |
| [6] | Dürr, O., Uzdilli, F., and Cieliebak, M. Joint_forces: Unite competing sentiment classifiers with random forest. SemEval 2014-Proceedings of the 8th International Workshop on Semantic Evaluation (2014), 366-369. [ bib ] |
| [7] | Cieliebak, M., Dürr, O., and Uzdilli, F. Potential and limitations of commercial sentiment detection tools. In ESSEM@ AI* IA (2013), Citeseer, pp. 47-58. [ bib ] |
| [8] | Dürr, O., and Brandenburg, A. Using community structure for complex network layout. arXiv preprint arXiv:1207.6282 (2012). [ bib ] |
| [9] | Durr, O., Pendzig, P., Dieterich, W., and Nitzan, A. Model studies of diffusion in glassy and polymer ion conductors. In Proceedings of the 1st International Discussion Meeting on Superionic Conductor Physics (2007), J. Kawamura, Ed. [ bib ] |
| [10] | Dürr, O., Duval, F., Nichols, A., Lang, P., Brodte, A., Heyse, S., and Besson, D. Robust hit identification by quality assurance and multivariate data analysis of a high-content, cell-based assay. Journal of biomolecular screening 12, 8 (2007), 1042-1049. [ bib ] |
| [11] | Dürr, O., and Dieterich, W. Glassy and polymeric ionic conductors:. statistical modeling and monte carlo simulations. In Superionic Conductor Physics (2007), vol. 1, pp. 77-80. [ bib ] |
| [12] | Heyse, S., Brodte, A., Bruttger, O., Duerr, O., Freeman, T., Jung, T., Lindemann, M., Ottl, J., and Rinn, B. Quantifying bioactivity on a large scale: quality assurance and analysis of multiparametric ultra-hts data. Journal of the Association for Laboratory Automation 10, 4 (2005), 207-212. [ bib ] |
| [13] | Dürr, O., Dieterich, W., and Nitzan, A. Coupled ion and network dynamics in polymer electrolytes: Monte carlo study of a lattice model. The Journal of chemical physics 121, 24 (2004), 12732-12739. [ bib ] |
| [14] | Dürr, O. Theoretical Studies of Relaxation and Ionic Transport in Polymers. PhD thesis, Dissertation. de, 2003. [ bib ] |
| [15] | Dürr, O., Volz, T., Dieterich, W., and Nitzan, A. Dynamic percolation theory for particle diffusion in a polymer network. The Journal of chemical physics 117, 1 (2002), 441-447. [ bib ] |
| [16] | Dürr, O., Dieterich, W., Maass, P., and Nitzan, A. Effective medium theory of conduction in stretched polymer electrolytes. The Journal of Physical Chemistry B 106, 24 (2002), 6149-6155. [ bib ] |
| [17] | Dürr, O., Dieterich, W., and Nitzan, A. Diffusion in polymer electrolytes and the dynamic percolation model. Solid state ionics 149, 1 (2002), 125-130. [ bib ] |
| [18] | Durr, O., Frisch, H., and Dieterich, W. Melt viscosities of lattice polymers using a kramers potential treatment. JOURNAL OF CHEMICAL PHYSICS 115, 19 (2001), 9042-9045. [ bib ] |
| [19] | Dürr, O., Nitzan, A., and Dieterich, W. Charge transport in polymer ion conductors. Comput. Syst. Sci. 177, cond-mat/0106197 (2001), 288-292. [ bib ] |
| [20] | Dieterich, W., Dürr, O., Pendzig, P., Bunde, A., and Nitzan, A. Percolation concepts in solid state ionics. Physica A: Statistical Mechanics and its Applications 266, 1 (1999), 229-237. [ bib ] |
| [21] | Dieterich, W., Dürr, O., Pendzig, P., and Nitzan, A. Stochastic modelling of ion diffusion in complex systems. In Anomalous Diffusion From Basics to Applications. Springer, 1999, pp. 175-185. [ bib ] |
| [22] | Dürr, O. Monte-carlo-simulationen zu polymeren ionenleitern. Master's thesis, Universität Konstanze, 1998. [ bib ] |
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