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Encoding of naturalistic stimuli by local field potential spectra in networks of excitatory and inhibitory neuronsIntraneural stimulation elicits discrimination of textural features by artificial fingertip in intact and amputee humans.Comparison of the dynamics of neural interactions between current-based and conductance-based integrate-and-fire recurrent networks.Artificial spatiotemporal touch inputs reveal complementary decoding in neocortical neurons.On the dynamics of the spontaneous activity in neuronal networksOpen source tools for the information theoretic analysis of neural dataComputing the Local Field Potential (LFP) from Integrate-and-Fire Network Models.Transition between Functional Regimes in an Integrate-And-Fire Network Model of the ThalamusSpontaneous electrical activity and behavior in the leech hirudo medicinalisNeuromorphic Artificial Touch for Categorization of Naturalistic Textures.Altered sensory processing and dendritic remodeling in hyperexcitable visual cortical networks.Heterogeneity of heterogeneities in neuronal networks.Giuliano Vanghetti and the innovation of "cineplastic operations"Stimulus dependence of local field potential spectra: experiment versus theory.Neuromorphic Vibrotactile Stimulation of Fingertips for Encoding Object Stiffness in Telepresence Sensory Substitution and Augmentation Applications.Phase analysis method for burst onset prediction.Complementary contributions of spike timing and spike rate to perceptual decisions in rat S1 and S2 cortex.Understanding the relationships between spike rate and delta/gamma frequency bands of LFPs and EEGs using a local cortical network model.Statistics of decision making in the leech.Quantitative characterization and classification of leech behavior.A novel test to determine the significance of neural selectivity to single and multiple potentially correlated stimulus features.Cortical dynamics during naturalistic sensory stimulations: experiments and models.Subthalamic Neural Activity Patterns Anticipate Economic Risk Decisions in Gambling.Bilateral Tactile Input Patterns Decoded at Comparable Levels But Different Time Scales in Neocortical Neurons.Optimal band separation of extracellular field potentials.Biomimetic Intraneural Sensory Feedback Enhances Sensation Naturalness, Tactile Sensitivity, and Manual Dexterity in a Bidirectional ProsthesisCarbon nanotube composite coating of neural microelectrodes preferentially improves the multiunit signal-to-noise ratioEncapsulation of Piezoelectric Transducers for Sensory Augmentation and Substitution with Wearable Haptic DevicesComparison of linear frequency and amplitude modulation for intraneural sensory feedback in bidirectional hand prosthesesIntracellular Dynamics in Cuneate Nucleus Neurons Support Self-Stabilizing Learning of Generalizable Tactile RepresentationsMicroneurography as a tool to develop decoding algorithms for peripheral neuro-controlled hand prosthesesUbiquitous Neocortical Decoding of Tactile Input Patterns
P50
Q27336259-DA2B3EDB-03A7-4B87-8419-96B08C544283Q30388019-D4077CEB-3792-4F8D-B129-B4E89156D84BQ30573410-12929431-A4FD-4FA2-8F1F-6AE15C967423Q30843883-37182A06-DD64-4DE4-B908-E0C92D32F8B9Q33284613-CCF0AE0B-03EA-4972-9CE3-588A71F914D0Q33668806-A0B86CC8-8B16-4917-A75E-D8FCA8900ED2Q35866304-7F7BFABE-986E-42A3-9969-E335072B6654Q36123749-BA157756-0337-4C6C-9419-6C55F12DE14EQ36852912-2ED23046-2861-4892-B330-5E3EA23A2EEFQ38963664-10E2A1DC-9478-4DA3-B906-568DF5BFC0A6Q40748764-71F36610-D767-4779-B205-E0846EC6C9DAQ42024632-EB18ADBE-EBF0-4C39-9EEB-84D254E168D8Q42266044-D894416B-7384-41EF-9A63-98273D3E2206Q46709132-9F29B2F6-BD43-4578-BB0D-02013824346DQ48227085-B64FF349-F50C-47B7-BDCA-795C0F45B620Q48262024-8A44BC5B-6FC9-4352-9C22-B3062EAA4FCEQ48361307-469E04EC-86C1-4D1C-BD3D-A431600082F1Q48372705-68444E45-7D10-4DD5-85D3-D24B3E9DADD4Q48495615-6EB6B6D0-3BD5-40E3-AA79-C7D282806177Q48528403-E6CE9F52-D3F9-4B77-BD43-DCA55D2A9457Q48798996-F7560124-06E9-462F-AB86-60DC888893B6Q48906682-D41B3319-E4A3-4BBC-B861-C4794FBE72EEQ49651899-A1F29557-751C-4068-BD75-BB4BBA0BEC1CQ52655470-D188440E-0A3B-47FD-AC79-298C41817408Q53204435-3FF7A031-97E9-4014-95EC-F3029841CE84Q57285676-3C39550B-EEEB-47CF-86C6-B94E346724B1Q57831374-DC832C63-C88E-4B74-919E-01974835806EQ59261186-BC01B59C-342E-421F-98FB-FAF9082A0ACAQ59329126-295D8CAD-F637-41B3-8886-367543830D0FQ62494774-A3B437A4-7CEE-4EF0-B3A2-2E455DC978A4Q64065681-12D57076-F877-460C-99D8-E08C7EABE0C2Q64118517-03D49181-80C1-463A-814E-0549A2A72CB7
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Alberto Mazzoni
@ast
Alberto Mazzoni
@en
Alberto Mazzoni
@es
Alberto Mazzoni
@nl
Alberto Mazzoni
@sl
type
label
Alberto Mazzoni
@ast
Alberto Mazzoni
@en
Alberto Mazzoni
@es
Alberto Mazzoni
@nl
Alberto Mazzoni
@sl
prefLabel
Alberto Mazzoni
@ast
Alberto Mazzoni
@en
Alberto Mazzoni
@es
Alberto Mazzoni
@nl
Alberto Mazzoni
@sl
P1053
A-5433-2018
P106
P21
P31
P496
0000-0002-9632-1831