 | 2008 |
|---|
| 17 |       | Arvind Kumar,
Sven Schrader,
Ad Aertsen,
Stefan Rotter:
The High-Conductance State of Cortical Networks.
Neural Computation 20(1): 1-43 (2008) |
| 16 | | Benjamin Staude,
Stefan Rotter,
Sonja Grün:
Can Spike Coordination Be Differentiated from Rate Covariation?
Neural Computation 20(8): 1973-1999 (2008) |
| 15 | | Tom Tetzlaff,
Stefan Rotter,
Eran Stark,
Moshe Abeles,
Ad Aertsen,
Markus Diesmann:
Dependence of Neuronal Correlations on Filter Characteristics and Marginal Spike Train Statistics.
Neural Computation 20(9): 2133-2184 (2008) |
| 14 | | Birgit Kriener,
Tom Tetzlaff,
Ad Aertsen,
Markus Diesmann,
Stefan Rotter:
Correlations and Population Dynamics in Cortical Networks.
Neural Computation 20(9): 2185-2226 (2008) |
| 2007 |
|---|
| 13 | | Tayfun Gürel,
Ulrich Egert,
Steffen Kandler,
Luc De Raedt,
Stefan Rotter:
Predicting Spike Activity in Neuronal Cultures.
IJCNN 2007: 2942-2947 |
| 12 | | Tayfun Gürel,
Luc De Raedt,
Stefan Rotter:
Mining Structure-Activity Relations in Biological Neural Networks using NeuronRank.
Perspectives of Neural-Symbolic Integration 2007: 49-65 |
| 11 | | Martin P. Nawrot,
Clemens Boucsein,
Victor Rodriguez-Molina,
Ad Aertsen,
Sonja Grün,
Stefan Rotter:
Serial interval statistics of spontaneous activity in cortical neurons in vivo and in vitro.
Neurocomputing 70(10-12): 1717-1722 (2007) |
| 10 | | Nicole Voges,
Ad Aertsen,
Stefan Rotter:
Statistical analysis of spatially embedded networks: From grid to random node positions.
Neurocomputing 70(10-12): 1833-1837 (2007) |
| 9 | | Tayfun Gürel,
Luc De Raedt,
Stefan Rotter:
Ranking neurons for mining structure-activity relations in biological neural networks: NeuronRank.
Neurocomputing 70(10-12): 1897-1901 (2007) |
| 8 | | Jens Kremkow,
Arvind Kumar,
Stefan Rotter,
Ad Aertsen:
Emergence of population synchrony in a layered network of the cat visual cortex.
Neurocomputing 70(10-12): 2069-2073 (2007) |
| 2003 |
|---|
| 7 | | Martin P. Nawrot,
Ad Aertsen,
Stefan Rotter:
Elimination of response latency variability in neuronal spike trains.
Biological Cybernetics 88(5): 321-334 (2003) |
| 6 | | Robert Gütig,
Ad Aertsen,
Stefan Rotter:
Analysis of higher-order neuronal interactions based on conditional inference.
Biological Cybernetics 88(5): 352-359 (2003) |
| 5 | | Alexandre Kuhn,
Ad Aertsen,
Stefan Rotter:
Higher-Order Statistics of Input Ensembles and the Response of Simple Model Neurons.
Neural Computation 15(1): 67-101 (2003) |
| 2002 |
|---|
| 4 | | Robert Gütig,
Ad Aertsen,
Stefan Rotter:
Statistical Significance of Coincident Spikes: Count-Based Versus Rate-Based Statistics.
Neural Computation 14(1): 121-153 (2002) |
| 3 | | Alexandre Kuhn,
Stefan Rotter,
Ad Aertsen:
Correlated input spike trains and their effects on the response of the leaky integrate-and-fire neuron.
Neurocomputing 44-46: 121-126 (2002) |
| 2001 |
|---|
| 2 | | Markus Diesmann,
Marc-Oliver Gewaltig,
Stefan Rotter,
Ad Aertsen:
State space analysis of synchronous spiking in cortical neural networks.
Neurocomputing 38-40: 565-571 (2001) |
| 1992 |
|---|
| 1 | | Ad Aertsen,
Eilon Vaadia,
Moshe Abeles,
Ehud Ahissar,
Hagai Bergman,
Benny Karmon,
Yizhar Lavner,
Eyal Margalit,
Israel Nelken,
Stefan Rotter:
Dynamics of Coherence in Cortical Neural Activity: Experimental Observations and Functional Interpretations.
Int. J. Neural Syst. 3(Supplement): 105-114 (1992) |
