Digital filter design for electrophysiological data--a practical approach.
about
On the Role of Mentalizing Processes in Aesthetic Appreciation: An ERP Study.The PREP pipeline: standardized preprocessing for large-scale EEG analysisHow regularity representations of short sound patterns that are based on relative or absolute pitch information establish over time: An EEG studyVisual cortex responses reflect temporal structure of continuous quasi-rhythmic sensory stimulationNear-instant automatic access to visually presented words in the human neocortex: neuromagnetic evidence.Deviance-Related Responses along the Auditory Hierarchy: Combined FFR, MLR and MMN EvidenceThe electrophysiology of language production: what could be improved.Two routes to actorhood: lexicalized potency to act and identification of the actor role.A Review of Issues Related to Data Acquisition and Analysis in EEG/MEG Studies.How inappropriate high-pass filters can produce artifactual effects and incorrect conclusions in ERP studies of language and cognition.Unilateral Left-Hand Contractions Produce Widespread Depression of Cortical Activity after Their ExecutionRIPPLELAB: A Comprehensive Application for the Detection, Analysis and Classification of High Frequency Oscillations in Electroencephalographic SignalsFilter based phase distortions in extracellular spikesDesign and Optimization of an EEG-Based Brain Machine Interface (BMI) to an Upper-Limb Exoskeleton for Stroke Survivors.A robust and representative lower bound on object processing speed in humans.First-pass neocortical processing of spoken language takes only 30 msec: Electrophysiological evidence.The Neural Bases of Event Monitoring across Domains: a Simultaneous ERP-fMRI StudyStandards for data acquisition and software-based analysis of in vivo electroencephalography recordings from animals. A TASK1-WG5 report of the AES/ILAE Translational Task Force of the ILAE.Consistency of abnormal sensory gating in first-admission and chronic schizophrenia across quantification methods.Sentence-Level Effects of Literary Genre: Behavioral and Electrophysiological Evidence.Cortical Auditory-Evoked Responses in Preterm Neonates: Revisited by Spectral and Temporal Analyses.Synchronization of Electrophysiological Responses with Speech Benefits Syntactic Information Processing.Robust detrending, rereferencing, outlier detection, and inpainting for multichannel data.Exploring the relationship of phase and peak-frequency EEG alpha-band and beta-band activity to temporal judgments of stimulus duration.Performance Evaluation and Implementation of FPGA Based SGSF in Smart Diagnostic Applications.A new ICA-based fingerprint method for the automatic removal of physiological artifacts from EEG recordings.Congruency of Separable Affix Verb Combinations Is Linearly Indexed by the N400.Source-Modeling Auditory Processes of EEG Data Using EEGLAB and Brainstorm.Tracking Temporal Hazard in the Human Electroencephalogram Using a Forward Encoding Model.A Comparison of Regularization Methods in Forward and Backward Models for Auditory Attention DecodingIFCN-endorsed practical guidelines for clinical magnetoencephalography (MEG)FieldTrip Made Easy: An Analysis Protocol for Group Analysis of the Auditory Steady State Brain Response in Time, Frequency, and SpaceEstimating the Timing of Cognitive Operations With MEG/EEG Latency Measures: A Primer, a Brief Tutorial, and an Implementation of Various MethodsA Reproducible MEG/EEG Group Study With the MNE Software: Recommendations, Quality Assessments, and Good Practices
P2860
Q27317324-3F8A324F-4F9F-4575-B4EA-77EEA39F62CEQ28648270-6B698273-EF23-4FF5-8F16-0E562FAC38E2Q30356504-455A005E-6D2E-40FC-830A-DDA006D22849Q30362879-F32C8980-88C6-4093-B18C-188F8E744EA0Q30381928-5B84BF6D-9897-4459-9FB1-53A3853EA846Q30403166-F5CC871D-A13C-47FF-BF65-FA087D75DEA0Q30420250-40D4EE66-EDD0-4362-A83F-D1863D200FCEQ30619288-1AA2AB6C-41AA-4413-AD05-C5EE7DDDE599Q33831764-FF6B897C-2914-4EFE-B780-0D832ABF8A77Q35862586-50EBA9C9-9958-4C0C-AD2B-A4FA954ECAFEQ35879490-551A5C0F-2069-422B-A73A-928185ED0970Q36060878-0173E750-B19D-49C8-B5CD-67128E01DF94Q36328420-32DCA058-4798-499A-AFF4-ED6D77585213Q36749330-E85D4DC1-1648-4F02-885E-A0BAD8AC2ED8Q37169468-89FA14C3-4D0A-409C-95C8-C19A827BC938Q38395438-1763670B-A63E-4F6C-AFE6-DCD7F5443F74Q41074661-0C6BF5FC-AAEF-43AF-A5FC-6345F9C95580Q45951562-1056F003-8999-4F14-A76C-6401A7CA9556Q45979478-953F1574-38A5-4432-B428-2C74589B9753Q47104321-DC7188C2-23AD-4D95-B09A-E571028BD98CQ47658305-99C28558-BFD1-4E9B-9FA5-B6B4D4FB8DAAQ47870440-8C640559-3CDA-4FC1-A26F-FD3E562330DBQ49968523-728B0250-17E0-4967-972C-BC96AD85269EQ50504163-CD93A306-4514-4520-A887-C41429C1D7D2Q50755021-65261644-1665-4216-BD65-A5CB4AF19F5BQ51746196-30CB1394-0D0A-4BB8-AD78-1FCA7AB2DC97Q55005095-E250E939-47D9-4282-BD72-74F77F3EC7A3Q55023869-534A3CC3-A597-475C-86EB-00BED612A1A8Q55068938-99F72A82-58C0-40EB-BA49-158A58A5F61FQ56085854-9D0ABEC7-FFDF-483C-A082-B5F20E296C0CQ56374580-C8DA9024-5FC3-41F3-8074-7942A84DDD5DQ57816882-BB556155-D590-48B8-9324-0F0840801F75Q58556527-FCF623B4-236B-48CF-A2D0-55F94DAEAD73Q58799035-65641B1B-8BA3-494A-AA00-F936618F0BBA
P2860
Digital filter design for electrophysiological data--a practical approach.
description
2014 nî lūn-bûn
@nan
2014 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Digital filter design for electrophysiological data--a practical approach.
@ast
Digital filter design for electrophysiological data--a practical approach.
@en
type
label
Digital filter design for electrophysiological data--a practical approach.
@ast
Digital filter design for electrophysiological data--a practical approach.
@en
prefLabel
Digital filter design for electrophysiological data--a practical approach.
@ast
Digital filter design for electrophysiological data--a practical approach.
@en
P50
P1476
Digital filter design for electrophysiological data--a practical approach.
@en
P356
10.1016/J.JNEUMETH.2014.08.002
P577
2014-08-13T00:00:00Z