IRIS
ZAGO, MIRKA
 Distribuzione geografica
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Continente #
NA - Nord America 19.897
AS - Asia 2.525
EU - Europa 2.074
SA - Sud America 320
AF - Africa 37
OC - Oceania 11
Continente sconosciuto - Info sul continente non disponibili 3
Totale 24.867
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Nazione #
US - Stati Uniti d'America 19.823
SG - Singapore 1.287
CN - Cina 415
IT - Italia 368
RU - Federazione Russa 312
HK - Hong Kong 256
BR - Brasile 251
UA - Ucraina 241
VN - Vietnam 214
DE - Germania 197
IE - Irlanda 187
FR - Francia 186
GB - Regno Unito 138
SE - Svezia 121
KR - Corea 90
JP - Giappone 86
FI - Finlandia 78
PL - Polonia 66
NL - Olanda 64
CA - Canada 44
IN - India 35
ID - Indonesia 29
BE - Belgio 26
ES - Italia 24
AR - Argentina 23
MX - Messico 15
TR - Turchia 14
CH - Svizzera 13
BD - Bangladesh 12
PH - Filippine 12
ZA - Sudafrica 12
GR - Grecia 11
AT - Austria 10
AU - Australia 9
EC - Ecuador 9
MY - Malesia 9
PK - Pakistan 9
TH - Thailandia 9
CL - Cile 8
IQ - Iraq 8
KG - Kirghizistan 7
VE - Venezuela 7
MA - Marocco 6
PE - Perù 6
PT - Portogallo 6
CO - Colombia 5
PY - Paraguay 5
TN - Tunisia 5
AE - Emirati Arabi Uniti 4
BY - Bielorussia 4
CZ - Repubblica Ceca 4
EG - Egitto 4
IL - Israele 4
RO - Romania 4
SA - Arabia Saudita 4
UY - Uruguay 4
UZ - Uzbekistan 4
DK - Danimarca 3
JO - Giordania 3
PA - Panama 3
SC - Seychelles 3
A2 - ???statistics.table.value.countryCode.A2??? 2
AZ - Azerbaigian 2
BG - Bulgaria 2
BO - Bolivia 2
CI - Costa d'Avorio 2
DZ - Algeria 2
HN - Honduras 2
IR - Iran 2
JM - Giamaica 2
NO - Norvegia 2
NZ - Nuova Zelanda 2
OM - Oman 2
SK - Slovacchia (Repubblica Slovacca) 2
A1 - Anonimo 1
BH - Bahrain 1
BS - Bahamas 1
CR - Costa Rica 1
CY - Cipro 1
DM - Dominica 1
DO - Repubblica Dominicana 1
ET - Etiopia 1
GD - Grenada 1
GE - Georgia 1
GP - Guadalupe 1
GT - Guatemala 1
HR - Croazia 1
HU - Ungheria 1
KE - Kenya 1
KZ - Kazakistan 1
LB - Libano 1
LT - Lituania 1
LV - Lettonia 1
MM - Myanmar 1
NP - Nepal 1
QA - Qatar 1
RS - Serbia 1
TG - Togo 1
TT - Trinidad e Tobago 1
Totale 24.867
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Città #
Woodbridge 5.416
Wilmington 4.974
Houston 4.477
Singapore 854
Fairfield 602
Ashburn 435
Ann Arbor 402
Chandler 373
Seattle 253
Hong Kong 249
Cambridge 227
San Jose 218
Jacksonville 211
Dublin 183
Beijing 170
Medford 144
Santa Clara 125
Rome 122
Dearborn 120
New York 103
The Dalles 99
Council Bluffs 87
Los Angeles 78
Lawrence 68
Ho Chi Minh City 67
Tokyo 63
Kraków 56
Dallas 54
Hanoi 54
Moscow 41
Lauterbourg 35
Mülheim 35
Buffalo 34
Milan 33
Menlo Park 31
Columbus 30
São Paulo 30
Boardman 27
Helsinki 27
Brussels 26
San Diego 25
Falls Church 24
Phoenix 23
Palo Alto 22
North Bergen 21
Engelhard 20
Jakarta 20
London 19
Orem 19
Redondo Beach 17
Nuremberg 16
Amsterdam 15
Montreal 14
Zhengzhou 13
Chennai 12
Chicago 12
Hangzhou 12
Frankfurt am Main 11
Salt Lake City 11
Guangzhou 10
Mountain View 10
Norwalk 10
Paris 10
Toronto 10
University Park 10
Ankara 9
Da Nang 9
Dong Ket 9
Manila 9
Redwood City 9
Rio de Janeiro 9
Seoul 9
Hải Dương 8
Johannesburg 8
Porto Alegre 8
Redmond 8
San Mateo 8
Shanghai 8
Warsaw 8
Atlanta 7
Belo Horizonte 7
Brooklyn 7
Edinburgh 7
Kunming 7
Monte Vista 7
Saint Petersburg 7
Athens 6
Bangkok 6
Biên Hòa 6
Denver 6
Haiphong 6
Leeds 6
Livorno 6
Seongnam 6
City of London 5
Guayaquil 5
Hounslow 5
Kuala Lumpur 5
Lahore 5
Lima 5
Totale 21.265
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Nome #
Representation of visual gravitational motion in the human vestibular cortex 715
Development of human locomotion 566
Gravity in the Brain as a Reference for Space and Time Perception 534
Fast adaptation of the internal model of gravity for manual interceptions: Evidence for event-dependent learning 496
Multiple levels of representation of reaching in the parieto-frontal network 493
How long did it last? You would better ask a human 490
Cognitive, perceptual and action-oriented representations of falling objects 488
Anticipating the effects of gravity when intercepting moving objects: Differentiating up and down based on nonvisual cues 484
Filling gaps in visual motion for target capture 481
Extrapolation of vertical target motion through a brief visual occlusion 473
Visual perception and interception of falling objects: A review of evidence for an internal model of gravity 472
Implied dynamics biases the visual perception of velocity 471
Intercepting virtual balls approaching under different gravity conditions: evidence for spatial prediction 466
Mental imagery of gravitational motion 461
Interactions between posture and locomotion: Motor patterns in humans walking with bent posture versus erect posture 458
The use of on-line perceptual invariants versus cognitive internal models for the predictive control of movement and action 457
Compensation for time delays is better achieved in time than in space 456
Are we ready to move beyond the reductionist approach of classical synergy control?: Comment on "Hand synergies: Integration of robotics and neuroscience for understanding the control of biological and artificial hands" by Marco Santello et al 454
Viewer-centered and body-centered frames of reference in direct visuomotor transformations 450
Visual gravitational motion and the vestibular system in humans 449
Internal model of gravity for hand interception: Parametric adaptation to zero-gravity visual targets on Earth 441
Temporal components of the motor patterns expressed by the human spinal cord reflect foot kinematics 439
Recovery of forward steeping in spinal cord injured patients does not transfer to untrained backward stepping 439
Distributed plasticity of locomotor pattern generators in spinal cord injured patients 436
When up is down in 0g: how gravity sensing affects the timing of interceptive actions 435
Hand interception of occluded motion in humans: A test of model-based versus on-line control 434
Planning and control: Are they separable in the brain? Entia non sunt multiplicanda praeter necessitatem 430
Neural extrapolation of motion for a ball rolling down an inclined plane 424
Does sensorimotor contingency theory account for perceptual-motor dissociations? 421
Internal models of target motion: Expected dynamics overrides measured kinematics in timing manual interceptions 418
Patterned control of human locomotion 417
Kinematic control of walking 416
Muscle Coordination and Locomotion in Humans 414
Review article: Plasticity of spinal centers in spinal cord injury patients: New concepts for gait evaluation and training 413
Internal models and prediction of visual gravitational motion 409
Coherence of structural visual cues and pictorial gravity paves the way for interceptive actions 407
On biological principles of motor control 402
Human locomotion in hypogravity: From basic research to clinical applications 398
Multisensory Integration and Internal Models for Sensing Gravity Effects in Primates 396
Evolutionary and developmental modules 389
Vestibular nuclei and cerebellum put visual gravitational motion in context 387
Visuo-motor coordination and internal models for object interception 385
Plasticity of spinal centers in spinal cord injury patients: new concepts for gait evaluation and training 381
Motor patterns in walking 376
Internalization of physical laws as revealed by the study of action instead of perception 368
The speed - curvature power law in Drosophila larval locomotion 368
Does the brain model Newton's laws? 344
Tick-tock, spinal motor neurons go with the cortical clock in young infants 344
Rolling motion along an incline: Visual sensitivity to the relation between acceleration and slope 308
Observing human movements helps decoding environmental forces 298
The speed-curvature power law of movements: a reappraisal 298
Body orientation contributes to modelling the effects of gravity for target interception in humans 264
Motion direction, luminance contrast, and speed perception: An unexpected meeting 233
Visuomotor interactions and perceptual judgments in virtual reality simulating different levels of gravity 232
Basal ganglia and gait control: Apomorphine administration and internal pallidum stimulation in Parkinson's disease 221
Time, observation, movement 199
Non-synergistic synergies of muscle activation: an apparent oxymoron 151
Perceptual and Motor Biases in Reference to Gravity 130
Watching the effects of gravity: vestibular cortex and the neural representation of "visual" gravity 128
Noise and vestibular perception of passive self-motion 111
Mental imagery of object motion in weightlessness 107
Anatomo-Physiological elements of sensory systems 98
The Brain as a Predictor: On Catching Fly Balls in Zero-G 92
Head-centric computing for vestibular stimulation under head-free conditions 91
Enhancement of vestibular motion discrimination by small stochastic whole-body perturbations in young healthy humans 90
Do visual and vestibular perceptual biases mutually compensate during the execution of a self-motion visuo-vestibular task? 88
Deterioration of vestibular motion perception: a risk factor for postural instability and falls in elderly with type 2 diabetes 88
Psychophysical evidence for an internal model of gravity in the visual and vestibular estimates of vertical motion duration 84
Laparoscopic right hemicolectomy: a SICE (Società Italiana di Chirurgia Endoscopica e Nuove tecnologie) network prospective study on the approach to right colon lymphadenectomy in Italy: is there a standard?—CoDIG 2 (ColonDx Italian Group) 83
Perceptual judgments of duration of parabolic motions 79
Epidemiology, Rapporteur Summary 76
A direct comparison between experimental and theoretical results of ligand-site binding in heme groups exposed to microwave fields 75
Reconstruction of the spectral properties of a biomolecule under electromagnetic exposure by means of molecular simulation 62
Validation of the quantum Z-S model by means of the interaction between mw fields and Zn-protoporphyrin system 60
Solvent-hemoglobin binding site interaction under microwave electromagnetic exposure: a molecular dynamics study 54
New protocols for the analysis of the performance of the human upper limb on the international space station. 52
Interactions between posture, load and locomotion: Motor patterns and intersegmental coordination 51
Non-invariants may be used for socially-relevant perceptual decisions: Comment on “Motor invariants in action execution and perception” by Francesco Torricelli et al 49
Limb geometry neural control. 43
Diabetic Neuropathy Is Associated With Lower Bone Mineral Density and Higher Fall Risk in Young Elderly Adults With Type 2 Diabetes 24
Postural orientation contributes to modeling the effects of gravity for target interception in humans 24
null 3
Totale 25.191
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Categoria #
all - tutte 57.276
article - articoli 0
book - libri 0
conference - conferenze 0
curatela - curatele 0
other - altro 0
patent - brevetti 0
selected - selezionate 0
volume - volumi 0
Totale 57.276
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Totale Lug Ago Sett Ott Nov Dic Gen Feb Mar Apr Mag Giu
2020/2021290 0 0 0 0 0 0 0 0 0 100 144 46
2021/2022765 45 63 39 45 34 54 48 30 63 122 36 186
2022/20231.029 117 72 30 139 100 217 70 53 99 40 79 13
2023/2024382 47 14 23 15 37 77 18 31 18 33 18 51
2024/20251.922 102 511 244 86 101 162 102 140 121 138 125 90
2025/20262.968 228 159 367 316 229 196 389 421 381 282 0 0
Totale 25.191