Search Results - "Ashida, Go"

Integrate-and-fire-type models of the lateral superior olive by Ashida, Go, Wang, Tiezhi, Kretzberg, Jutta

“…Neurons of the lateral superior olive (LSO) in the auditory brainstem play a fundamental role in binaural sound localization. Previous theoretical studies…”
Get full text

Robustness of neuronal tuning to binaural sound localization cues against age-related loss of inhibitory synaptic inputs by Ashida, Go, Tollin, Daniel J, Kretzberg, Jutta

“…Sound localization relies on minute differences in the timing and intensity of sound arriving at both ears. Neurons of the lateral superior olive (LSO) in the…”
Get full text

A comparative study of seven human cochlear filter models by Saremi, Amin, Beutelmann, Rainer, Dietz, Mathias, Ashida, Go, Kretzberg, Jutta, Verhulst, Sarah

“…Auditory models have been developed for decades to simulate characteristics of the human auditory system, but it is often unknown how well auditory models…”
Get full text

Neuronal population model of globular bushy cells covering unit-to-unit variability by Ashida, Go, Heinermann, Helen T, Kretzberg, Jutta

“…Computations of acoustic information along the central auditory pathways start in the cochlear nucleus. Bushy cells in the anteroventral cochlear nucleus,…”
Get full text

Roles for Coincidence Detection in Coding Amplitude-Modulated Sounds by Ashida, Go, Kretzberg, Jutta, Tollin, Daniel J

“…Many sensory neurons encode temporal information by detecting coincident arrivals of synaptic inputs. In the mammalian auditory brainstem, binaural neurons of…”
Get full text

Physiological models of the lateral superior olive by Ashida, Go, Tollin, Daniel J, Kretzberg, Jutta

“…In computational biology, modeling is a fundamental tool for formulating, analyzing and predicting complex phenomena. Most neuron models, however, are designed…”
Get full text

Non-synaptic Plasticity in Leech Touch Cells by Meiser, Sonja, Ashida, Go, Kretzberg, Jutta

“…The role of Na /K -pumps in activity-dependent synaptic plasticity has been described in both vertebrates and invertebrates. Here, we provide evidence that the…”
Get full text

Computation of interaural time difference in the owl's coincidence detector neurons by Funabiki, Kazuo, Ashida, Go, Konishi, Masakazu

“…Both the mammalian and avian auditory systems localize sound sources by computing the interaural time difference (ITD) with submillisecond accuracy. The neural…”
Get full text

Theoretical Relationship Between Two Measures of Spike Synchrony: Correlation Index and Vector Strength by Kessler, Dominik, Carr, Catherine E, Kretzberg, Jutta, Ashida, Go

“…Information processing in the nervous system critically relies on temporally precise spiking activity. In the auditory system, various degrees of phase-locking…”
Get full text

Minimal conductance-based model of auditory coincidence detector neurons by Ashida, Go, Funabiki, Kazuo, Kretzberg, Jutta

“…Sound localization is a fundamental sensory function of a wide variety of animals. The interaural time difference (ITD), an important cue for sound…”
Get full text

Spike-Conducting Integrate-and-Fire Model by Ashida, Go, Nogueira, Waldo

“…Modeling is a useful tool for investigating various biophysical characteristics of neurons. Recent simulation studies of propagating action potentials (spike…”
Get full text

Contribution of action potentials to the extracellular field potential in the nucleus laminaris of barn owl by Kuokkanen, Paula T, Ashida, Go, Kraemer, Anna, McColgan, Thomas, Funabiki, Kazuo, Wagner, Hermann, Köppl, Christine, Carr, Catherine E, Kempter, Richard

“…Extracellular field potentials (EFP) are widely used to evaluate in vivo neural activity, but identification of multiple sources and their relative…”
Get full text

Maps of interaural delay in the owl's nucleus laminaris by Carr, Catherine E, Shah, Sahil, McColgan, Thomas, Ashida, Go, Kuokkanen, Paula T, Brill, Sandra, Kempter, Richard, Wagner, Hermann

“…Axons from the nucleus magnocellularis form a presynaptic map of interaural time differences (ITDs) in the nucleus laminaris (NL). These inputs generate a…”
Get full text

Suprathreshold stochastic resonance induced by ion channel fluctuation by Ashida, Go, Kubo, Masayoshi

“…In this study, we examine the signal detection ability of an array of neurons with intrinsic channel fluctuation. Numerical simulations show that estimation of…”
Get full text

Passive Soma Facilitates Submillisecond Coincidence Detection in the Owl's Auditory System by Ashida, Go, Abe, Kousuke, Funabiki, Kazuo, Konishi, Masakazu

“…1 Horizontal Medical Research Organization, Graduate School of Medicine and 2 Graduate School of Informatics, Kyoto University, Kyoto, Japan; and 3 Division of…”
Get full text

Linear summation in the barn owl's brainstem underlies responses to interaural time differences by Kuokkanen, Paula T, Ashida, Go, Carr, Catherine E, Wagner, Hermann, Kempter, Richard

“…The neurophonic potential is a synchronized frequency-following extracellular field potential that can be recorded in the nucleus laminaris (NL) in the…”
Get full text

On the origin of the extracellular field potential in the nucleus laminaris of the barn owl (Tyto alba) by Kuokkanen, Paula T, Wagner, Hermann, Ashida, Go, Carr, Catherine E, Kempter, Richard

“…The neurophonic is a sound-evoked, frequency-following potential that can be recorded extracellularly in nucleus laminaris of the barn owl. The origin of the…”
Get full text

Signal-to-noise ratio in the membrane potential of the owl's auditory coincidence detectors by Ashida, Go, Funabiki, Kazuo, Kuokkanen, Paula T, Kempter, Richard, Carr, Catherine E

“…Owls use interaural time differences (ITDs) to locate a sound source. They compute ITD in a specialized neural circuit that consists of axonal delay lines from…”
Get full text

Effect of sampling frequency on the measurement of phase-locked action potentials by Ashida, Go

“…Phase-locked spikes in various types of neurons encode temporal information. To quantify the degree of phase-locking, the metric called vector strength (VS)…”
Get full text

Sound localization: Jeffress and beyond by Ashida, Go, Carr, Catherine E

“…Highlights ► New theories have emerged to describe neural coding of interaural time differences. ► Birds, mammals, and lizards use various coding strategies…”
Get full text