H
Hermann Wagner
Researcher at RWTH Aachen University
Publications - 189
Citations - 7330
Hermann Wagner is an academic researcher from RWTH Aachen University. The author has contributed to research in topics: Interaural time difference & Sound localization. The author has an hindex of 41, co-authored 189 publications receiving 6733 citations. Previous affiliations of Hermann Wagner include California Institute of Technology & Queen's University.
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Embryonic development of the Little Owl (Athene noctua) and Tengmalm’s Owl (Aegolius funereus) compared to the American Barn Owl (Tyto furcata): reference data for staging
TL;DR: Little Owls hatch at the most advanced state amongst these species with respect to plumage, size and weight; they incubate their eggs for just a week and can breed under more adverse conditions than the other two species.
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Side peak suppression in responses of an across-frequency integration model to stimuli of varying bandwidth as demonstrated analytically and by implementation
TL;DR: A Jeffress-based sound localization model is presented, and it is shown that side peak suppression did not only depend on bandwidth, but also on the center frequency and the distance of the side peak to the main response peak, with a proportionality factor depending on relative bandwidth.
Journal Article
Influence of brain and computer design on the performance of natural and artificial organisms
R. Schmidt,Wolfgang Buschlinger,Martin Egelhaaf,Michael Koch,J. Kruger,R. Malaka,Rolf Pfeifer,Gerhard Vollmer,Hermann Wagner +8 more
TL;DR: This group report concentrates on discussions of structure-function relationships in brains and attempts to compare some evolutionary achieve ments of natural organisms with the influence of computer and robot (artificial organism) design on their performance.
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An interaural time difference map resulting from axonal selection through non-specific learning
TL;DR: A model of how an ITD map can develop in an array of spiking neurons in the barn owl's nucleus laminaris is presented and homosynaptic spike-based Hebbian learning with presynaptic propagation of synaptic modifications is combined.
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Integrity of and damage to wings, feather vanes and serrations in barn owls.
Paolo Piedrahita,Markus Krings,Petra Nikolay,Nadine Mundt,Galo Quezada,Edgar Masaquiza Chango,Hermann Wagner +6 more
TL;DR: In this paper, the authors examined how much the wings, the P10 feather and the serrations in different populations of barn owls reflect the intact situation, and quantitatively assessed damage by counting the number of wings with missing or broken primary feathers.