We show in two behavioral experiments that humans can adapt to such volatility at the early sensorimotor level, through their anticipatory eye movements.

We show in two behavioral experiments that humans can adapt to such volatility at the early sensorimotor level, through their anticipatory eye movements.

Apr 13, 2020 · Human observers adapt their eye movements to accurately anticipate the target's expected direction. Here, we prove that this ability extends to a volatile ...

Oct 22, 2024 · Humans adapt their anticipatory eye movements to the volatility of visual motion properties. PLOS Computational Biology. April 2020; 16(4): ...

Sep 26, 2019 · In particular, we show in two behavioral experiments that humans can adapt to such volatility at the early sensorimotor level, through their ...

Humans are able to accurately track a moving object with a combination of saccades and smooth eye movements. These movements allow us to align and stabilize ...

Oct 21, 2020 · ... Humans adapt their anticipatory eye movements to the volatility of visual motion properties. PLoS Comput Biol 16(10): e1008385. doi:10.1371 ...

In particular, the experiments show in two behavioural experiments that humans adapt to volatility at the early sensorimotor level, through their anticipatory ...

Humans adapt their anticipatory eye movements to the volatility of visual motion properties. Overview of attention for article published in PLoS ...

Framework of manuscript "Humans adapt their anticipatory eye movements to the volatility of visual motion properties". Abstract · HTML · PDF; supplementary info ...