about
A setup for simultaneous measurement of electrophysiological and psychometric temporal encoding in the auditory system.Application of triphasic pulses with adjustable phase amplitude ratio (PAR) for cochlear ECAP recording: I. amplitude growth functions.26th Annual Computational Neuroscience Meeting (CNS*2017): Part 3.Effects of electrical pulse polarity shape on intra cochlear neural responses in humans: triphasic pulses with cathodic second phase.Recording of electrically evoked auditory brainstem responses (E-ABR) with an integrated stimulus generator in Matlab.Spike-contrast: A novel time scale independent and multivariate measure of spike train synchrony.Recording and online analysis of auditory steady state responses (ASSR) in Matlab.Recording of electrically evoked auditory brainstem responses after electrical stimulation with biphasic, triphasic and precision triphasic pulses.Evaluation of an artifact reduction strategy for electrically evoked auditory steady-state responses: Simulations and measurements.A simulation of chopper neurons in the cochlear nucleus with wideband input from onset neurons.New parallel stimulation strategies revisited: effect of synchronous multi electrode stimulation on rate discrimination in cochlear implant users.Preventing Facial Nerve Stimulation by Triphasic Pulse Stimulation in Cochlear Implant Users: Intraoperative Recordings.The Underlying Mechanism of Preventing Facial Nerve Stimulation by Triphasic Pulse Stimulation in Cochlear Implant Users Assessed With Objective Measure.Recording and analysis of electrically evoked compound action potentials (ECAPs) with MED-EL cochlear implants and different artifact reduction strategies in Matlab.Application of triphasic pulses with adjustable phase amplitude ratio (PAR) for cochlear ECAP recording: II. recovery functionsPsychometric function of jittered rate pitch discriminationRate pitch discrimination in cochlear implant users with the use of double pulses and different interpulse intervals
P50
Q41089002-44A69381-DB26-4FD1-B006-B85F58DE8C0BQ45040405-38CDE0A6-5E8C-4AC0-AFE4-5DD94D4AC134Q45879038-C2A25DE9-611B-4279-AC1C-9CFE39560EA9Q46226352-C4F1B878-01D7-422C-A534-981635D99E3EQ47579634-68CFECD6-9C43-40F2-85A5-3AF624836F24Q47649904-0C83A539-335A-47CC-BFD5-54BD6B3C158CQ48367377-F1579BBA-B3EC-46A0-8AB9-2E1D6B2E45B6Q48426968-26D3F0C8-AA3A-4737-B874-AFD54B081C38Q48553361-173A0A08-8E18-4A35-BD35-40B07E671B90Q48823370-3C958769-DA4B-47E2-BEBB-59AAB32CAFFCQ49125734-CBDA24F2-9AB1-4912-8CE9-6C8C8269B9F7Q50076872-AECCA38A-36C0-468A-95ED-64AE5F883179Q50348485-FFC7C664-88CD-4A1E-A01A-BDD855DB86D2Q51688568-FDEA0F0D-AA1C-4998-B35C-6445D42A81D7Q83144679-393FECC1-96B9-4270-A9FA-7F6D39833125Q87861464-91C06C82-AF82-4967-86E2-6C23D4E1C75AQ92862759-4719D4F9-6DF6-48D7-8721-00B0606C18FB
P50
description
researcher ORCID ID = 0000-0003-0908-0011
@en
wetenschapper
@nl
name
Andreas Bahmer
@ast
Andreas Bahmer
@en
Andreas Bahmer
@es
Andreas Bahmer
@nl
type
label
Andreas Bahmer
@ast
Andreas Bahmer
@en
Andreas Bahmer
@es
Andreas Bahmer
@nl
prefLabel
Andreas Bahmer
@ast
Andreas Bahmer
@en
Andreas Bahmer
@es
Andreas Bahmer
@nl
P214
P214
P2456
P31
P496
0000-0003-0908-0011
P735
P7859
viaf-77489673