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research
A competitive integration model of exogenous and endogenous eye movements
Authors
A Bergeron
A Guillaume
+137 more
A Jayaraman
A Kingstone
A Levy-Schoen
A Mokler
AE Ipata
AH Bell
AJ Opstal Van
AK Moschovakis
B Fischer
B Fischer
C Pierrot-Deseilligny
C Quaia
CJ Bruce
CJ Tinsley
CJH Ludwig
D Guitton
DA Robinson
DE Irwin
DL Sparks
DP Hanes
DP Hanes
DP Munoz
DP Munoz
DP Munoz
DP Munoz
DP Munoz
DP Munoz
DP Munoz
DP Munoz
EG Freedman
EG Freedman
EH Yeterian
F Lui
FP Ottes
FP Ottes
FP Ottes
G Gancarz
G Gancarz
H Bekkering
H Deubel
H Jiang
H Komatsu
HH Goossens
HH Goossens
J Heinzle
J Theeuwes
JA Edelman
JAM Gisbergen Van
JAM Gisbergen Van
Jan Theeuwes
JC Lynch
JD Connolly
JM Dafoe
JM Findlay
JM Findlay
JR Duhamel
JW Brown
K Arai
K Hepp
K Johnson
K Kopecz
K Kopecz
KS Rockland
LE Mays
LE Ross
LG Ungerleider
LM Optican
MA Basso
MA Basso
MA Basso
MA Segraves
MA Sommer
Martijn Meeter
MC Dorris
MC Dorris
MC Dorris
MC Dorris
MC Doyle
MF Huerta
MG Saslow
MM Walton
MRG Brown
MT Schmolesky
N Amador
N Catz
NL Port
NP Bichot
O Hikosaka
O Hikosaka
P He
P Lefevre
P Pouget
PA Reuter-Lorenz
PA Reuter-Lorenz
PE Hallet
PH Schiller
PH Schiller
PS Goldman
R Godijn
R Hackman
R Jong de
R Shafiq
R Soetedjo
R Walker
R Walker
RJ Krauzlis
RJ Leigh
RM McPeek
RM McPeek
RM McPeek
RM McPeek
RP Hasegawa
RW Anderson
S Coren
S Everling
S Everling
S Everling
S Everling
S Everling
S Ferraina
S Funahashi
S Funahashi
S Stigchel Van der
S Stigchel Van der
S Stigchel Van der
S Yantis
SM Ross
SP Tipper
Stefan Van der Stigchel
T Kanda
TJ Gawne
TM Lock
TP Trappenberg
V Braitenberg
W Becker
W Becker
Á Kristjánsson
Publication date
1 January 2010
Publisher
Doi
Cite
Abstract
We present a model of the eye movement system in which the programming of an eye movement is the result of the competitive integration of information in the superior colliculi (SC). This brain area receives input from occipital cortex, the frontal eye fields, and the dorsolateral prefrontal cortex, on the basis of which it computes the location of the next saccadic target. Two critical assumptions in the model are that cortical inputs are not only excitatory, but can also inhibit saccades to specific locations, and that the SC continue to influence the trajectory of a saccade while it is being executed. With these assumptions, we account for many neurophysiological and behavioral findings from eye movement research. Interactions within the saccade map are shown to account for effects of distractors on saccadic reaction time (SRT) and saccade trajectory, including the global effect and oculomotor capture. In addition, the model accounts for express saccades, the gap effect, saccadic reaction times for antisaccades, and recorded responses from neurons in the SC and frontal eye fields in these tasks. © The Author(s) 2010
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