about
Attentional networks functioning, age, and attentional lapses while driving.Brain networks of temporal preparation: A multiple regression analysis of neuropsychological data.Bouncing or streaming? Exploring the influence of auditory cues on the interpretation of ambiguous visual motion.Auditory motion affects visual motion perception in a speeded discrimination task.Recognizing the bank robber and spotting the difference: emotional state and global vs. local attentional set.Two cognitive and neural systems for endogenous and exogenous spatial attention.The Spatial Orienting paradigm: how to design and interpret spatial attention experiments.Endogenous attention modulates attentional and motor interference from distractors: evidence from behavioral and electrophysiological results.Alertness can be improved by an interaction between orienting attention and alerting attention in schizophrenia.The effect of social categorization on trust decisions in a trust game paradigm.Effectiveness of a neuropsychological treatment for confabulations after brain injury: A clinical trial with theoretical implicationsThe attentional mechanism of temporal orienting: determinants and attributes.Temporal attention enhances early visual processing: a review and new evidence from event-related potentials.Reduction of the spatial stroop effect by peripheral cueing as a function of the presence/absence of placeholders.The role of spatial attention and other processes on the magnitude and time course of cueing effects.Beyond the inhibition of return of attention: reduced habituation to threatening faces in schizophrenia.Inhibition of return: Twenty years after.Thinking about the future moves attention to the right.A cow on the prairie vs. a cow on the street: long-term consequences of semantic conflict on episodic encoding.Green love is ugly: emotions elicited by synesthetic grapheme-color perceptions.Automatic perception and synaesthesia: evidence from colour and photism naming in a stroop-negative priming task.High density ERP indices of conscious and unconscious semantic priming.No single electrophysiological marker for facilitation and inhibition of return: A review.Qualitative differences between implicit and explicit sequence learning.Flexible conceptual projection of time onto spatial frames of reference.Inhibition of return interacts with the Simon effect: an omnibus analysis and its implications.Men and women with fibromyalgia: Relation between attentional function and clinical symptoms.Electrophysiological modulations of exogenous attention by intervening events.Sequential congruency effects in implicit sequence learning.Object-based attentional effects in response to eye-gaze and arrow cues.Executive attention and personality variables in patients with frontal lobe damage.Dissociating proportion congruent and conflict adaptation effects in a Simon-Stroop procedure.Alerting, orienting and executive control: the effects of sleep deprivation on attentional networks.Inhibition of return in response to eye gaze and peripheral cues in young people with Asperger's syndrome.Additions are biased by operands: evidence from repeated versus different operands.Implementing flexibility in automaticity: evidence from context-specific implicit sequence learning.When endogenous spatial attention improves conscious perception: effects of alerting and bottom-up activation.Is "Inhibition of Return" due to the inhibition of the return of attention?Race, emotion and trust: an ERP study.Attentional capture and trait anxiety: evidence from inhibition of return.
P50
Q30224962-4E620972-B666-4E22-87C4-6C07728D1DD9Q31121536-B5915A3D-B045-407F-8FA4-6E4F8B7DB1BDQ33204552-CDEEE153-8993-42A3-89B1-70EF6A4EB348Q33279397-F5349B3D-021D-4A26-A4D8-7ABF02D90F4AQ33456696-72F5DFAB-F841-44F3-B410-5ABBD926A998Q34642976-B31F7863-2F36-4D60-A32D-DA5CE6F57029Q35086115-FB8E8A6F-E97E-42E6-B421-595E0B04F825Q35104324-18D0B937-1DFA-4266-B557-E5471233CA9AQ35166489-816C3F47-6B72-4843-807A-956A1BD67CA0Q36146181-6D40C665-6112-4651-A7D9-4A742FCD97AEQ36296528-056D0805-ECFD-439F-9864-7AF8B08D2DA9Q36307476-7B7E2C37-99A8-425C-899A-0AF89F8E6C6CQ36413330-BC850898-E1C7-4E73-A7E7-62CBACD91022Q37042667-7B0DDC5E-13FA-4EB6-8954-47AB6714EB6FQ37064917-FB0F14B0-B787-4959-BBD5-69DD8FD3681CQ37526455-D4276D74-AD93-4466-BDEE-FB8CDBA29D06Q37806988-0447DAB6-0B2B-4672-B966-D30C11BD5A11Q38376040-66512CC6-C487-4D57-B7BF-A4F502BB4A94Q38387446-C03D69C0-6EDE-4341-A591-BFC94E006F2BQ38401995-927D77FE-0B4A-4967-B0A9-A7CE10D8E4A9Q38407208-A3C1B7C3-5835-4D79-8814-A65F184E2B62Q38425984-2AAB04B3-3A20-4EFC-B3AA-2A4052445EB9Q38661353-E6A13D3A-AAB3-48EB-88EE-5CD5B8D02EDFQ39270302-14F0D34A-7A78-4A94-8BFC-91E3AAF177B2Q40309816-5A119901-E643-43BC-809D-8D0A2FC720A1Q40640162-E20BB968-E4D2-411D-A4AB-0D2AC0AB4C8BQ41627265-97BE9B6B-5F8D-4A61-8234-44C5C3127A0DQ43433324-35869124-7BF8-4858-AB2A-4756985C524EQ43752404-F4EC57D1-DB44-4135-8DC6-42F2A2C713D1Q44287273-AE1B4F54-610A-454F-88FC-63B28F90F731Q44528158-04295D5A-29C6-4CCA-974B-97E6B852EA44Q45719651-C7934E14-B57B-4B1A-9289-F10F439E8A0DQ45732287-3A7B4DBD-4036-4519-8580-F13FDD3C44CAQ45972068-6B0E57FA-6A39-4D2B-99DB-EA357E9D8AA0Q46053851-66593EC9-40E3-4E9A-AA90-D9DC3E0D1969Q46087319-EE0A1D30-2547-454D-8CED-3ED7F9147BE7Q46128107-44C9FE0A-04C0-4B9B-BF36-45627F7ED860Q46165406-2AB0D4EF-2AA2-44C4-8E34-DB2824F0D2DAQ46670010-B92CBE90-A07B-4344-A7F7-E68653230904Q46754863-9A2EF007-5146-4C86-8165-434BAD0776E9
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Juan Lupiáñez
@ast
Juan Lupiáñez
@en
Juan Lupiáñez
@es
Juan Lupiáñez
@nl
Juan Lupiáñez
@sl
type
label
Juan Lupiáñez
@ast
Juan Lupiáñez
@en
Juan Lupiáñez
@es
Juan Lupiáñez
@nl
Juan Lupiáñez
@sl
prefLabel
Juan Lupiáñez
@ast
Juan Lupiáñez
@en
Juan Lupiáñez
@es
Juan Lupiáñez
@nl
Juan Lupiáñez
@sl
P106
P1153
7005267697
P21
P31
P496
0000-0001-6157-9894