noTo investigate the underlying nature of the effects of transcranial magnetic stimulation (TMS) on speed perception, we applied repetitive TMS (rTMS) to human V5/MT+ following adaptation to either fast- (20 deg/s) or slow (4 deg/s)-moving grating stimuli. The adapting stimuli induced changes in the perceived speed of a standard reference stimulus moving at 10 deg/s. In the absence of rTMS, adaptation to the slower stimulus led to an increase in perceived speed of the reference, whilst adaptation to the faster stimulus produced a reduction in perceived speed. These induced changes in speed perception can be modelled by a ratio-taking operation of the outputs of two temporally tuned mechanisms that decay exponentially over time. When rTMS wa...
The perceived speed of moving images changes over time. Prolonged viewing of a pattern (adaptation) ...
Nervous systems adapt to the prevailing sensory environment, and the consequences of this adaptation...
Evidence from human and primate studies suggests that fast visual processing may utilize signals pro...
noIn this report, we evaluate the role of visual areas responsive to motion in the human brain in th...
AbstractDuring adaptation to a moving pattern, perceived speed decreases. Thus we know that the adap...
Motion information can reach V5/MT through two parallel routes: one conveying information at early l...
none6siMotion information can reach V5/MT through two parallel routes: one conveying information at ...
Observers report seeing as slower a target disk moving in front of a static visual noise (SVN) backg...
Visual systems adapt to the prevailing image conditions. This improves the ability to discriminate b...
Adaptation to directional motion has been shown to bias the perceived direction of a subsequently pr...
The underlying mechanisms of action of transcranial magnetic stimulation (TMS) are still a matter of...
none4noAdaptation to directional motion has been shown to bias the perceived direction of a subseque...
The ability to detect the motion of objects is critical to survival, and understanding the cortical ...
Transcranial magnetic stimulation (TMS) is now widely used as a 'virtual' lesion paradigm to investi...
Transcranial magnetic stimulation (TMS) is a technique used to study perceptual, motor, and cognitiv...
The perceived speed of moving images changes over time. Prolonged viewing of a pattern (adaptation) ...
Nervous systems adapt to the prevailing sensory environment, and the consequences of this adaptation...
Evidence from human and primate studies suggests that fast visual processing may utilize signals pro...
noIn this report, we evaluate the role of visual areas responsive to motion in the human brain in th...
AbstractDuring adaptation to a moving pattern, perceived speed decreases. Thus we know that the adap...
Motion information can reach V5/MT through two parallel routes: one conveying information at early l...
none6siMotion information can reach V5/MT through two parallel routes: one conveying information at ...
Observers report seeing as slower a target disk moving in front of a static visual noise (SVN) backg...
Visual systems adapt to the prevailing image conditions. This improves the ability to discriminate b...
Adaptation to directional motion has been shown to bias the perceived direction of a subsequently pr...
The underlying mechanisms of action of transcranial magnetic stimulation (TMS) are still a matter of...
none4noAdaptation to directional motion has been shown to bias the perceived direction of a subseque...
The ability to detect the motion of objects is critical to survival, and understanding the cortical ...
Transcranial magnetic stimulation (TMS) is now widely used as a 'virtual' lesion paradigm to investi...
Transcranial magnetic stimulation (TMS) is a technique used to study perceptual, motor, and cognitiv...
The perceived speed of moving images changes over time. Prolonged viewing of a pattern (adaptation) ...
Nervous systems adapt to the prevailing sensory environment, and the consequences of this adaptation...
Evidence from human and primate studies suggests that fast visual processing may utilize signals pro...