| 2008 |
|---|
| 28 | EE | Marcílio Carlos Pereira de Souto,
Daniel S. A. de Araujo,
Ivan G. Costa,
Rodrigo G. F. Soares,
Teresa Bernarda Ludermir,
Alexander Schliep:
Comparative study on normalization procedures for cluster analysis of gene expression datasets.
IJCNN 2008: 2792-2798 |
| 27 | EE | Marcílio Carlos Pereira de Souto,
Ricardo Bastos Cavalcante Prudêncio,
Rodrigo G. F. Soares,
Daniel S. A. de Araujo,
Ivan G. Costa,
Teresa Bernarda Ludermir,
Alexander Schliep:
Ranking and selecting clustering algorithms using a meta-learning approach.
IJCNN 2008: 3729-3735 |
| 26 | EE | Ivan G. Costa,
Stefan Roepcke,
Christoph Hafemeister,
Alexander Schliep:
Inferring differentiation pathways from gene expression.
ISMB 2008: 156-164 |
| 25 | EE | Alexander Schliep,
Roland Krause:
Efficient Algorithms for the Computational Design of Optimal Tiling Arrays.
IEEE/ACM Trans. Comput. Biology Bioinform. 5(4): 557-567 (2008) |
| 24 | EE | Anthony J. Macula,
Alexander Schliep,
Morgan A. Bishop,
Thomas E. Renz:
New, Improved, and Practical k-Stem Sequence Similarity Measures for Probe Design.
Journal of Computational Biology 15(5): 525-534 (2008) |
| 2007 |
|---|
| 23 | | Claudia Falter,
Alexander Schliep,
Joachim Selbig,
Martin Vingron,
Dirk Walther:
Proceedings of the German Conference on Bioinformatics, GCB 2007, September 26-28, 2007, Potsdam, Germany.
GI 2007 |
| 22 | EE | Ivan G. Costa,
Marcílio Carlos Pereira de Souto,
Alexander Schliep:
Validating Gene Clusterings by Selecting Informative Gene Ontology Terms with Mutual Information.
BSB 2007: 81-92 |
| 21 | | Alexander Schliep:
Detecting functional modules from heterogenous mass data.
LWA 2007: 9 |
| 20 | EE | Benjamin Georgi,
Jörg Schultz,
Alexander Schliep:
Context-Specific Independence Mixture Modelling for Protein Families.
PKDD 2007: 79-90 |
| 19 | EE | Alexander Schliep,
Roland Krause:
Efficient Computational Design of Tiling Arrays Using a Shortest Path Approach.
WABI 2007: 383-394 |
| 18 | EE | Gunnar W. Klau,
Sven Rahmann,
Alexander Schliep,
Martin Vingron,
Knut Reinert:
Integer linear programming approaches for non-unique probe selection.
Discrete Applied Mathematics 155(6-7): 840-856 (2007) |
| 2006 |
|---|
| 17 | EE | Benjamin Georgi,
Alexander Schliep:
Context-specific independence mixture modeling for positional weight matrices.
ISMB (Supplement of Bioinformatics) 2006: 166-173 |
| 16 | EE | Alexander Schliep,
Sven Rahmann:
Decoding non-unique oligonucleotide hybridization experiments of targets related by a phylogenetic tree.
ISMB (Supplement of Bioinformatics) 2006: 424-430 |
| 2005 |
|---|
| 15 | EE | Ivan G. Costa,
Alexander Schönhuth,
Alexander Schliep:
The Graphical Query Language: a tool for analysis of gene expression time-courses.
Bioinformatics 21(10): 2544-2545 (2005) |
| 14 | EE | Alexander Schliep,
Ivan G. Costa,
Christine Steinhoff,
Alexander Schönhuth:
Analyzing Gene Expression Time-Courses.
IEEE/ACM Trans. Comput. Biology Bioinform. 2(3): 179-193 (2005) |
| 2004 |
|---|
| 13 | EE | Gunnar W. Klau,
Sven Rahmann,
Alexander Schliep,
Martin Vingron,
Knut Reinert:
Optimal robust non-unique probe selection using Integer Linear Programming.
ISMB/ECCB (Supplement of Bioinformatics) 2004: 186-193 |
| 12 | EE | Alexander Schliep,
Christine Steinhoff,
Alexander Schönhuth:
Robust inference of groups in gene expression time-courses using mixtures of HMMs.
ISMB/ECCB (Supplement of Bioinformatics) 2004: 283-289 |
| 2003 |
|---|
| 11 | EE | Alexander Schliep,
David C. Torney,
Sven Rahmann:
Group Testing With DNA Chips: Generating Designs and Decoding Experiments.
CSB 2003: 84-93 |
| 10 | EE | Alexander Schliep,
Alexander Schönhuth,
Christine Steinhoff:
Using hidden Markov models to analyze gene expression time course data.
ISMB (Supplement of Bioinformatics) 2003: 255-263 |
| 2002 |
|---|
| 9 | | P. Pipenbacher,
Alexander Schliep,
Sebastian Schneckener,
Alexander Schönhuth,
Dietmar Schomburg,
Rainer Schrader:
ProClust: improved clustering of protein sequences with an extended graph-based approach.
ECCB 2002: 182-191 |
| 8 | | Lars Kaderali,
Alexander Schliep:
Selecting signature oligonucleotides to identify organisms using DNA arrays.
Bioinformatics 18(10): 1340-1349 (2002) |
| 2001 |
|---|
| 7 | | Eva Bolten,
Alexander Schliep,
Sebastian Schneckener,
Dietmar Schomburg,
Rainer Schrader:
Clustering protein sequences-structure prediction by transitive homology.
Bioinformatics 17(10): 935-941 (2001) |
| 6 | EE | Eva Bolten,
Alexander Schliep,
Sebastian Schneckener,
Dietmar Schomburg,
Rainer Schrader:
Strongly Connected Components can Predict Protein Structure.
Electronic Notes in Discrete Mathematics 8: 10-13 (2001) |
| 5 | EE | Lars Kaderali,
Alexander Schliep:
A new Algorithm for Accelerating Pair-Wise Computations of Melting Temperature.
Electronic Notes in Discrete Mathematics 8: 46-49 (2001) |
| 1999 |
|---|
| 4 | | Eva Bolten,
Alexander Schliep,
Sebastian Schneckener,
Dietmar Schomburg,
Rainer Schrader:
Clustering Protein Sequences ? Structure Prediction by Transitive Homology.
German Conference on Bioinformatics 1999: 181 |
| 3 | | Alexander Schliep:
Learning Hidden Markov Model Topology.
German Conference on Bioinformatics 1999: 225-226 |
| 1998 |
|---|
| 2 | | Norman A. Doggett,
Jonathan Longmire,
Alexander Schliep,
David C. Torney:
Screening large clone libraries efficiently.
German Conference on Bioinformatics 1998 |
| 1996 |
|---|
| 1 | | Emanuel Knill,
Alexander Schliep,
David C. Torney:
Interpretation of Pooling Experiments Using the Markov Chain Monte Carlo Method.
Journal of Computational Biology 3(3): 395-406 (1996) |
