active inference

a follow-up of: Emmanuel Daucé, Pierre Albigès, Laurent U Perrinet (2020). A dual foveal-peripheral visual processing model implements efficient saccade selection. Journal of Vision. Preprint PDF Cite Code DOI the mathematical details are described as a talk the 1st International WS on #ActiveInference #IWAI2020 at @ECMLPKDD https://t.

for a more mathematical treatment, see Emmanuel Daucé, Laurent U Perrinet (2020). Visual search as active inference. IWAI 2020. PDF Cite Code Slides DOI New @ARVOJOV : "A dual foveal-peripheral visual processing model implements efficient saccade selection" https://t.

Find the text at https://laurentperrinet.github.io/Perrinet20PredictiveProcessing/ The source code of the text is available at https://github.com/laurentperrinet/Perrinet20PredictiveProcessing This chapter is available as part of the book “The Philosophy and Science of Predictive Processing” : List of Contributors : Preface: The Brain as a Prediction Machine, Anil Seth Introduction, Dina Mendonça, Manuel Curado & Steven S.

download a preliminary PDF Emmanuel Daucé @ #CNS2019Barcelona speaks about our joint work on « Learning where to look: a foveated visuomotor control model » more info @ https://t.co/HREjuIgNCn @CNSorg pic.

Active Inference, tracking eye movements and oculomotor delays Tracking eye movements face a difficult task: they have to be fast while they suffer inevitable delays. If we focus on area MT of humans for instance as it is crucial for detecting the motion of visual objects, sensory information coming to this area is already lagging some 35 milliseconds behind operational time – that is, it reflects some past information.

This schematic shows the dependencies among various quantities that are assumed when modeling the exchanges of a self organizing system like the brain with the environment.