Opendata, web and dolomites
H2020 projects about "attentional"
The page lists 31 projects related to the topic "attentional".
| # | |||
|---|---|---|---|
| 1 | XCYCLE | Advanced measures to reduce cyclists' fatalities and increase comfort in the interaction with motorised vehicles | 2015 |
| 2 | BRAINVIEW | Integrated view on disruptions of early brain development | 2015 |
| 3 | LearningDeterminants | Inter-individual variability in learning: an investigation of its determinants | 2015 |
| 4 | AUTOPACE | AUTOMATION PACE | 2016 |
| 5 | ORCA | Oscillatory long-Range Coherence in Attention | 2016 |
| 6 | DynamAtt | Dynamics of Attentional Networks in the Human Brain in Health and Disease: Evidence from Intracerebral and MEG Recordings | 2017 |
| 7 | PtoACons | Going from Phenomenal to Access Consciousness: Neurobehavioural correlates of visual consciousness development and its underlying cognitive procesess. | 2016 |
| 8 | Thalamic Circuits | Circuit analysis of thalamic visual processing and its modulation by long-range projections | 2017 |
| 9 | ElectroMAD | The Fast Periodic Visual Stimulation: a sensitive and objective approach to identify early cognitive markers of AD | 2016 |
| 10 | DecodeRemapping | Decoding the neural mechanism of human spatial cognition using behavioural and hemodynamic signals | 2017 |
| 11 | PainDynamics | PainDynamics: Research on the dynamics of attention bias for pain in daily life. | 2016 |
| 12 | ADMIN | Interaction between posterior parietal and prefrontal cortices with occipital visual cortex in visual attention and perceptual decision making. | 2017 |
| 13 | GENEVA | Unravelling how GENEtic VAriation in attentional control contributes to working memory capacity | 2016 |
| 14 | TMS_ATT | Brain stimulation of attention networks: examining old principles and developing new clinical applications | 2016 |
| 15 | MOTO | the embodied reMOte Tower | 2016 |
| 16 | STRESS | Human Performance neurometricS Toolbox foR highly automatEd Systems deSign | 2016 |
| 17 | Brain3.0 | Invasive cognitive brain computer interfaces to enhance and restore attention: proof of concept and underlying cortical mechanisms. | 2016 |
| 18 | PADUA | Perception–action based design for urban accessibility: principles for inclusive design grounded in an understanding of first-person control of locomotion in the urban setting | 2016 |
| 19 | BRAVEST | Boosting Reward-based Attention through VEstibular STimulation | 2018 |
| 20 | SloMo | Slow motion: Transformations of musical time in perception and performance | 2017 |
| 21 | NATVIS | Characterizing neural mechanisms underlying the efficiency of naturalistic human vision | 2017 |
| 22 | Daphne | Circuits of Visual Attention | 2017 |
| 23 | ViMoAct | Modelling cortical information flow during visuomotor adaptation as active inference in the human brain | 2017 |
| 24 | START | Spatio-Temporal Attention and Representation Tracking: the precise neural architecture of conscious object perception | 2018 |
| 25 | SOUNDSCENE | How does the brain organize sounds into auditory scenes? | 2018 |
| 26 | BILINGUALPLAS | Neurophysiological correlates of bilingual advantage and its contribution to cognitive reserve | 2020 |
| 27 | MOXO-Mobile Phase-1 | MOXO-Mobile: the first Attention Deficit Hyperactive Disorder (ADHD) screening mobile application, using Eye Tracking and Continuous Performance Test components to give the first evidence of attention | 2019 |
| 28 | INDIVISUAL | Individual differences in human gaze behaviour and the visual system | 2020 |
| 29 | CISBOOM | Convergence of Information from Separate Brain Areas to Orchestrate Orienting Movements | 2021 |
| 30 | CLONESA | Closed Loop NeuroStimulation of Attention | 2020 |
| 31 | WAVES | TRAVELING WAVES: Defining the mechanisms allowing attention to occur in space and in time | 2020 |