Related publications of Jan Benda

• Creutzig, F, Wohlgemuth, S, Stumpner, A, Benda, J, Ronacher, B, and Herz, AV (2009): Timescale-invariant representation of acoustic communication signals by a bursting neuron. J Neurosci 29 (8): 2575-2580. ( Abstract )

• Hildebrandt, KJ, Benda, J, and Hennig, RM (2009): The origin of adaptation in the auditory pathway of locusts is specific to cell type and function. J Neurosci 29 (8): 2626-2636. ( Abstract )

• Middleton, JW, Longtin, A, Benda, J, and Maler, L (2009): Postsynaptic receptive field size and spike threshold determine encoding of high-frequency information via sensitivity to synchronous presynaptic activity. J Neurophysiol 101 (3): 1160-1170. ( Abstract )

• Benda, J and Hennig, RM (2008): Spike-frequency adaptation generates intensity invariance in a primary auditory interneuron. J Comput Neurosci 24 (2): 113-136. ( Abstract )

• Benda, J, Longtin, A, and Maler, L (2006): A synchronization-desynchronization code for natural communication signals. Neuron 52 (2): 347-358. ( Abstract )

• Middleton, JW, Longtin, A, Benda, J, and Maler, L (2006): The cellular basis for parallel neural transmission of a high-frequency stimulus and its low-frequency envelope. Proc Natl Acad Sci U S A 103 (39): 14596-14601. ( Abstract )

• Benda, J, Longtin, A, and Maler, L (2005): Spike-frequency adaptation separates transient communication signals from background oscillations. J Neurosci 25 (9): 2312-2321. ( Abstract )

• Benda, J and Herz, AV (2003): A universal model for spike-frequency adaptation. Neural Comput 15 (11): 2523-2564. ( Abstract )

• Gollisch, T, Schütze, H, Benda, J, and Herz, AV (2002): Energy integration describes sound-intensity coding in an insect auditory system. J Neurosci 22 (23): 10434-10448. ( Abstract )