Simon, Jonathan Z. - Departments of Biology & Electrical and Computer Engineering, University of Maryland at College Park

• MEG/EEG & Auditory Jonathan Z. Simon
• Spectro-Temporal Processing In
• The Neural Representation of Auditory Modulations Relevant to Speech
• Neural Response Correlates of Detection of Monaurally and Binaurally Created
• Center for Auditory and Acoustic Research
• Representation of Complex Dynamic Spectra in Auditory Cortex Jonathan Z. Simon, Didier A. Depireux and Shihab A. Shamma
• Title of Thesis: METHODS IN REALISTIC COMPUTATIONAL MODELING OF THE AVIAN NUCLEUS LAMINARIS
• Juanjuan Xiang Mounya Elhilali
• Computational Sensorimotor
• Simultaneous encoding of envelope and fine structure in human auditory cortex HuanHuan LuoLuo, Yadong Wang, David Poeppel, Jonathan Z. Simon, Yadong Wang, David Poeppel, Jonathan Z. Simon
• Wavelet Analysis of MEG Auditory Response IntroductionIntroduction
• Auditory M50 and M100 responses to broadband noise: functional implications
• Behavioral/Systems/Cognitive Processing Asymmetry of Transitions between Order and
• Experiment 1 (N=20) 9 conditions (random presentation)
• MEG Steady State Responses To Auditory Stimuli Of Varying Complexity Simon JZ1,3,5 Wang Y2, Poeppel D2,3,4,5,Xiang J1, Ahmar N1
• Auditory modulation transfer functions measured by MEG for modulation rates dominant in speech Harshavardhan A. Agashe1,Yadong Wang4, Nai Ding2, Jonathan Z. Simon1,2,3
• Spectro-Temporal Response Field Characterization With Dynamic Ripples in Ferret Primary Auditory Cortex
• Jonathan Z. Simon Neuroscience and Cognitive Sciences /
• The avian cochlear nucleus laminaris (NL) is the first to receive binaural input and is responsible
• Jonathan Z. Simon Neuroscience and Cognitive Sciences
• Behavioral/Systems/Cognitive Competing Streams at the Cocktail Party: Exploring the
• E.A. Lopez-Poveda et al. (eds.), The Neurophysiological Bases of Auditory Perception, DOI 10.1007/978-1-4419-5686-6_50, Springer Science+Business Media, LLC 2010
• Interaction between Attention and Bottom-Up Saliency Mediates the Representation of Foreground and
• Human auditory cortical processing of transitions between `order' and `disorder'
• Stimulus Context Affects Auditory Cortical Responses to Changes in Interaural Correlation
• MEG SIGNAL DENOISING BASED ON TIME-SHIFT PCA Alain de Cheveigne
• Brain and Language 102 (2007) 8090 www.elsevier.com/locate/b&l
• Behavioral/Systems/Cognitive Human Auditory Cortical Processing of Changes in
• Significance tests for MEG response detection Nayef E. Ahmar1
• Abstract-Acoustic signals can be decomposed into the product of an envelope and its fine structure. The envelope features are
• The enigma of cortical responses: Slow yet precise Mounya Elhilali, David J. Klein, Jonathan B. Fritz, Jonathan Z. Simon, and Shihab
• Are Neurons Adapted for Specific Computations? Examples from Temporal
• Behavioral/Systems/Cognitive Dynamics of Precise Spike Timing in Primary
• Abstract. A biologically detailed model of the binaural avian nucleus laminaris is constructed, as a two-dimen-
• Temporal coding in the auditory brainstem of the barn owl J. Z. Simon1
• RESPONSE-FIELD DYNAMICS IN THE AUDITORY PATHWAY D.A. Depireux, Powen Ru, S.A. Shamma and J.Z. Simon
• Measuring the Dynamics of Neural Responses in Primary Auditory Cortex
• Hamiltonian thermodynamics of a Lovelock black hole Jorma Louko* and Jonathan Z. Simon
• General Relativity and Gravitation, Vol. 18, No. 10, 1986 General Relativity in a (2 + 1)-Dimensional
• Title of Thesis: A MODEL OF THE AVIAN SUPERIOR OLIVARY Degree candidate: Raul Rodriguez Esteban
• Challenges for Analyzing Slow Rhythms in MEG Data
• Human Cortical Representations of Simultaneous Fast FM and Slow AM
• 1. Neural Responses Slow task: strong neural signal component at 4 Hz
• Jonathan Z. Simon Neuroscience and Cognitive Sciences /
• 6 111 7 122 8 133 94 10 145 Target Task
• 10 stimuli, 50.25s duration; inter-stimulus intervals from 1.5 to 1.9 s; loudness 70 dB SPL 16 subjects listened passively
• 6 111 7 122 8 133 94 10 145 Target Task
• Human auditory cortical processing of transitions between `order'
• Jonathan Z. Simon Biology / Electrical & Computer Engineering
• Modulation-encoding and Co-representation of the Acoustic Envelope and Carrier in Human Auditory Cortex
• Chait, M., Poeppel, D., de Cheveigne' A. & Simon J (2005), Auditory cortical sensitivity to changes in interaural correlation. J Neurosci.14;25(37):8518 27
• 1.5 Hz 3.5 Hz 7.5 Hz 15.5 Hz 31.5 Hz Auditory Steady State Responses to Broadband Noise in Human Auditory Cortex
• [1]Palmer, AR, Jiang, D & McAlpine D (1999). "Desynchronizing responses to correlated noise: a mechanisms for BMLD at the inferior colliculus", J. Neurophysiol 81: [2] Gabriel, KJ & Colburn, HS (1981). "Interaural correlation discrimination: I. bandwidth
• MEG Response to Speech and Stimuli with Complex Modulations Juanjuan Xiang (ECE, ISR), Jonathan Z. Simon (ECE, Biology, NACS, ISR)
• Jonathan Z. Simon Biology / Electrical & Computer Engineering
• 0 10 20 30 40 50 60 frequency (Hz)
• Application of Independent Component Analysis (ICA) on Magnetoencephalography (MEG)
• Experiment 1 (N=20) 9 conditions (random presentation)
• Magnetoencephalography at UMCP Jonathan Z. Simon (ECE, Biology, ISR), David Poeppel (Linguistics, Biology)
• Center for Auditory and Acoustic Research
• Biophysical Model Of Coincidence Detection In
• Computational Sensorimotor
• Neural Constraints in Auditory Cortex
• Center for Auditory and Acoustic Research
• Center for Auditory and Acoustic Research
• Center for Auditory and Acoustic Research
• Center for Auditory and Acoustic Research
• Neuronal correlates of pitch in the Inferior Colliculus
• MEG Response to Band-Passed Noise
• 1 of 15 August 8, 2008 CURRICULUM VITAE
• Citations by Year & Article '88 '89 '90 '91 '92 '93 '94 '95 '96 '97 '98 '99 '00 '01 '02 '03 '04 '05 '06 '07 '08 '09
• Human Auditory Cortical and Behavioral Sensitivity for TransitioHuman Auditory Cortical and Behavioral Sensitivity for Transitions Betweenns Between Order and DisorderOrder and Disorder
• An Encoding Transition in the Concurrent Encoding of Frequency and Amplitude Modulation
• Jonathan Z. Simon Electrical & Computer Engineering,
• Concurrent Encoding of Frequency and Amplitude Modulation in Human Auditory Cortex: Encoding Transition
• Spectro-Temporal Processing of
• Center for Auditory and Acoustic Research
• Human Cortical Representations of Complex Temporal Modulations
• Pressure vs. decibel modulation in spectrotemporal representations
• Jonathan Simon Learning physics from science fiction
• Behavioral/Systems/Cognitive Detection of Interaural Time Differences in the Alligator
• 3 new methods for signal analysis and denoising Alain de Cheveign*, Jonathan Simon**
• Parallel De-Noising of Biological Signals Emily Sosin
• Robert Prior Dr. Jonathan Simon
• 1.5 Hz 3.5 Hz 7.5 Hz 15.5 Hz 31.5 Hz Auditory Steady State Responses to Broadband Noise in Human Auditory Cortex
• Jonathan Z. Simon Electrical & Computer Engineering
• Auditory Gamma-Band Response to Modulated Tones: Wavelet Analysis of MEG Data
• Experiment 1 (N=20) 9 conditions (random presentation)
• Page 1 of 17 Revealing Hidden Neural Processes
• Phase Tracking of Slow and Fast Tone Sequences in Human AuditoryPhase Tracking of Slow and Fast Tone Sequences in Human Auditory CortexCortex HuanHuan LuoLuo,, YadongYadong Wang, DavidWang, David PoeppelPoeppel, Jonathan Z. Simon, Jonathan Z. Simon
• ORIGINAL PAPER The Elicitation of Audiovisual Steady-State Responses: Multi-
• DETECTION OF INTERAURAL TIME DIFFERENCES IN THE ALLIGATOR 387.8. D.Soares*; J.Z.Simon; C.E.Carr
• Neuropsychologia 48 (2010) 32623271 Contents lists available at ScienceDirect
• Auditory Neuroscience with Magnetoencephalography
• ARTICLE Communicated by Maneesh Sahani Temporal Symmetry in Primary Auditory Cortex: Implications
• Human Cortical Representations of Simultaneous Fast FM and Slow AM
• Signal Processing of Auditory Responses from
• 1. Neural Responses Slow task: strong neural signal component at 4 Hz
• Neurocomputing 26}27 (1999) 263}269 A dendritic model of coincidence detection
• Neural Computation at the Femtotesla Scale
• Simultaneous encoding of envelope and fine structure in human auditory cortex HuanHuan LuoLuo,, YadongYadong Wang, David Poeppel, Jonathan Z. SimonWang, David Poeppel, Jonathan Z. Simon
• Multi-Equivalent Dipoles Fitting for Magnetoencephalography Research Ma L1, Wang Y2, Simon JZ1,3,4,5
• Declaration of Relevant Financial Interests or Relationships
• ARO Mid-Winter Meeting, 2001 1 Institute for Systems Research
• Abstract -Complex numbers appear naturally in biological systems in the context of the Fourier transform. In particular,
• Wide-band noise Pure tone (500ms)Noise onset as Background
• Research Report Auditory temporal edge detection in human auditory cortex
• Jonathan Z. Simon Biology / Electrical & Computer Engineering
• Mounya Elhilali Johns Hopkins University Juanjuan Xiang Starkey Laboratories
• J Comput Neurosci () : DOI 10.1007/s10827-005-3589-4
• Journal of Computational Neuroscience 9, 85111, 2000 c 2000 Kluwer Academic Publishers. Manufactured in The Netherlands.
• ARTICLE Communicated by J. Kevin O'Regan A Sensorimotor Approach to Sound Localization
• Two Time Scales in Speech Processing Maria Chait*, Steven Greenberg**, Takayuki Arai***, Jonathan Z. Simon**** and David Poeppel*
• What does precise spiking in AI tell us about the structure of its receptive fields? Mounya Elhilali, Jonathan Fritz, David Klein, Jonathan Simon, and Shihab Shamma #219
• Concurrent Encoding of Frequency and Amplitude Modulation in Human Auditory Cortex: MEG Evidence
• Binding Mechanisms in Speech ProcessingBinding Mechanisms in Speech Processing Maria Chait*, Steven Greenberg**, Takayuki Arai***, Jonathan Z. Simon**** and David Poeppel*
• Jonathan Z. Simon Electrical & Computer Engineering Colloquium
• Center for Auditory and Acoustic Research
• Coincidence Detection In Nucleus Laminaris
• Wide-band noise Pure tone (500ms)Noise onset as Background
• Jonathan Z. Simon Mounya Elhilali
• Center for Auditory and Acoustic Research
• A Biophysical Computational Model: Victor Grau-Serrat (ECE), Catherine E. Carr (Biology) and Jonathan Z. Simon (ECE, Biology, ISR)
• Ignoring a moment in timeIgnoring a moment in time an auditory MEG studyan auditory MEG study Maria Chait 1,2, Alain de Cheveign 2, David Poeppel1 and Jonathan Z. Simon1
• Center for Auditory and Acoustic Research
• Computational Sensorimotor
• Linearity and Temporal Symmetry in
• Ptiylca Wofld Dombr 1994 2 7 Einstein's equations of relativity do not rule out "closed time-like
• Jonathan Z. Simon Neuroscience and Cognitive Sciences /
• Modulation Encoding in Auditory Cortex
• Center for Auditory and Acoustic Research
• At least 4 bit/s information about the temporal structure of speech can be decoded from MEG responses.
• Neural Coding of Single and Simultaneous Talkers in Auditory Cortex
• Robust Neural Encoding of Speech in Human Auditory Cortex
• Figure 1. FA, MD, MK maps of a representative rat at baseline and 2 hour and 7 days after TBI.
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• Conclusions The cortical representation of the temporal envelope of speech is
• Sensitivity to Temporal Modulation Rate and Spectral1 Bandwidth in the Human Auditory System: MEG Evidence2
• Diffusion Kurtosis Imaging (DKI) Reconstruction.
• Table 1. Calculated overall percentage error, Err, for all four methods and all DTI and DKI related
• Diffusion Kurtosis a Sensitive Marker For Traumatic Brain Injury
• In the low frequency region (<10 Hz), the neural response can be predicted by the spectro-temporal modulations of the stimulus speech, using the STRF.
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• Psychophysical and Physiological Studies of Synthetic Vowel Harmonic Structure Julian Jenkins III1,2, Jonathan Z. Simon1,3, David Poeppel4, William J. Idsardi2,5
• Audiovisual Entrainment to Pseudo-speech Signals Ariane E. Rhone1, Julian Jenkins III2, William J. Idsardi1, Jonathan Z. Simon2,3, David Poeppel4
• Psychophysical and MEG studies of the Timbre of Synthesized Approximations to Vowels Julian Jenkins III1,2, Jonathan Z. Simon1,3, David Poeppel4, William J. Idsardi2,5
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• Temporal cues and modulation rate interplay with attention to detect a target sound embedded in background noise