scholarly article | Q13442814 |
P50 | author | Endre Takács | Q56966516 |
István Czigler | Q84120620 | ||
P2093 | author name string | László Balázs | |
Irén Barkaszi | |||
P2860 | cites work | Melatonin: Characteristics, Concerns, and Prospects | Q22299303 |
P3a and P3b from typical auditory and visual stimuli | Q24691095 | ||
Testing the efficiency and independence of attentional networks | Q28215562 | ||
Two varieties of long-latency positive waves evoked by unpredictable auditory stimuli in man | Q28244392 | ||
The attention system of the human brain | Q28245431 | ||
The mismatch negativity (MMN) in basic research of central auditory processing: a review | Q28252924 | ||
Orienting of attention | Q28282162 | ||
Effects of noise letters upon the identification of a target letter in a nonsearch task | Q29540789 | ||
EEGLAB: an open source toolbox for analysis of single-trial EEG dynamics including independent component analysis | Q29547481 | ||
Influence of cognitive control and mismatch on the N2 component of the ERP: a review | Q30492004 | ||
Impairment in cognitive and exercise performance during prolonged antarctic residence: effect of thyroxine supplementation in the polar triiodothyronine syndrome | Q32086604 | ||
Elevation-dependent symptom, mood, and performance changes produced by exposure to hypobaric hypoxia | Q33423895 | ||
The effect of moderate levels of simulated altitude on sustained cognitive performance | Q33423944 | ||
Effect of chronic hypobaric hypoxia on components of the human event related potential. | Q33432088 | ||
The effects of mild hypoxia on a logical reasoning task | Q33473308 | ||
Psychological effects of mild acute hypoxia | Q33475433 | ||
Selective anterior cingulate cortex deficit during conflict solution in schizophrenia: an event-related potential study. | Q48435140 | ||
The N2 in go/no-go tasks reflects conflict monitoring not response inhibition. | Q48515567 | ||
Executive brain functions after exposure to nocturnal traffic noise: effects of task difficulty and sleep quality | Q48516849 | ||
Total sleep deprivation and novelty processing: implications for frontal lobe functioning | Q48570379 | ||
Is pre-attentive processing compromised by prolonged wakefulness? Effects of total sleep deprivation on the mismatch negativity | Q48682843 | ||
Psychological impact of the Antarctic winter on Indian expeditioners | Q48684134 | ||
The influence of sad mood on cognition. | Q50880751 | ||
Mental fatigue and impaired response processes: event-related brain potentials in a Go/NoGo task. | Q51873383 | ||
Effects of mental fatigue on attention: an ERP study. | Q51929802 | ||
How to measure human adaptation in extreme environments: the case of Antarctic wintering-over. | Q52041053 | ||
Performance during mild acute hypoxia. | Q52214017 | ||
Applying positive psychology in the study of extreme environments | Q56952708 | ||
The stability of psychometric performance during the International Biomedical Expedition to the Antarctic (IBEA) | Q56955850 | ||
A comparison of visual and auditory reaction time and P300 latency thresholds to acute hypoxia | Q71780347 | ||
Two different components of contingent negative variation (CNV) and their relation to changes in reaction time under hypobaric hypoxic conditions | Q77813929 | ||
A triarchic model of P300 amplitude | Q34190270 | ||
Health and performance of Antarctic winter-over personnel: a follow-up study | Q34190332 | ||
Invulnerability, coping, salutogenesis, integration: four phases of space psychology | Q34424704 | ||
Psychological effects of polar expeditions | Q34656330 | ||
Altitude adaptation through hematocrit changes | Q34737812 | ||
Response Surface Mapping of Neurobehavioral Performance: Testing the Feasibility of Split Sleep Schedules for Space Operations | Q34937716 | ||
Testing the behavioral interaction and integration of attentional networks | Q34958525 | ||
Clinical effects of sleep fragmentation versus sleep deprivation | Q35541481 | ||
Exercise in isolation--a countermeasure for electrocortical, mental and cognitive impairments | Q35593018 | ||
Effect of short-term acclimatization to high altitude on sleep and nocturnal breathing | Q35741872 | ||
Long-Term Exposure to High Altitude Affects Response Inhibition in the Conflict-monitoring Stage | Q36012538 | ||
Neuropsychological functioning associated with high-altitude exposure | Q36082705 | ||
Information-based modeling of event-related brain dynamics | Q36637425 | ||
An ERP examination of the different effects of sleep deprivation on exogenously cued and endogenously cued attention. | Q37366938 | ||
Event related potential (ERP) P300 after 6 months residence at 4115 meter. | Q38387969 | ||
ERPs to response production and inhibition | Q38493789 | ||
Behavioral and electrophysiological effects of task-irrelevant sound change: a new distraction paradigm | Q38550520 | ||
The time course of brain activations during response inhibition: evidence from event-related potentials in a go/no go task | Q38552279 | ||
Altitude and seasonality impact on sleep in Antarctica | Q39010368 | ||
Stimulus novelty, task relevance and the visual evoked potential in man. | Q39336825 | ||
Mental fatigue and task control: planning and preparation | Q40743078 | ||
Disentangling the attention network test: behavioral, event related potentials, and neural source analyses. | Q41816857 | ||
Repeated measurement of the components of attention using two versions of the Attention Network Test (ANT): stability, isolability, robustness, and reliability | Q43077457 | ||
Do N1/MMN, P3a, and RON form a strongly coupled chain reflecting the three stages of auditory distraction? | Q43572886 | ||
Effects of spatial cuing on luminance detectability: psychophysical and electrophysiological evidence for early selection | Q44903573 | ||
Sleep and Breathing at High Altitude. | Q46031786 | ||
Sleep respiratory disturbances and arousals at moderate altitude have overlapping electroencephalogram spectral signatures | Q46074247 | ||
Behavior and performance on long-duration spaceflights: evidence from analogue environments | Q46740907 | ||
Mental fatigue, motivation and action monitoring | Q46804484 | ||
Effects of normobaric hypoxic confinement on visual and motor performance | Q47910790 | ||
Sleep-related periodic breathing does not acclimatize to chronic hypobaric hypoxia: a 1-year study at high altitude in Antarctica | Q48096648 | ||
Disentangling sequential effects of stimulus- and response-related conflict and stimulus-response repetition using brain potentials | Q48129914 | ||
Manipulation specific effects of mental fatigue: evidence from novelty processing and simulated driving. | Q48204832 | ||
Sequence effects support the conflict theory of N2 and P3 in the Go/NoGo task. | Q48243674 | ||
Event-related potentials associated with Attention Network Test. | Q48293290 | ||
Effects of degradation of visual stimulation on components of the event-related potential (ERP) in go/nogo reaction tasks | Q48312352 | ||
Effects of simulated high altitude exposure on long-latency event-related brain potentials and performance. | Q48362130 | ||
Mental fatigue impairs pre-attentive processing: a MMN study. | Q48373994 | ||
Sleep architecture changes during a trek from 1400 to 5000 m in the Nepal Himalaya | Q48392239 | ||
Frontal lobe function, sleep loss and fragmented sleep | Q48408334 | ||
The effects of hypoxia on auditory reaction time and P300 latency | Q48412490 | ||
P407 | language of work or name | English | Q1860 |
P921 | main subject | high altitude | Q59775044 |
P304 | page(s) | 331 | |
P577 | publication date | 2016-06-30 | |
P1433 | published in | Frontiers in Human Neuroscience | Q15727054 |
P1476 | title | Extreme Environment Effects on Cognitive Functions: A Longitudinal Study in High Altitude in Antarctica | |
P478 | volume | 10 |
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