Author T. Parr
Kirchhoff M., Parr T., Palacios E., Friston K. & Kiverstein J. (2018) The Markov blankets of life: Autonomy, active inference and the free energy principle. Journal of The Royal Society Interface 15(138): 20170792. https://cepa.info/5393
Kirchhoff M., Parr T., Palacios E., Friston K. & Kiverstein J.
(
2018)
The Markov blankets of life: Autonomy, active inference and the free energy principle.
Journal of The Royal Society Interface 15(138): 20170792.
Fulltext at https://cepa.info/5393
This work addresses the autonomous organization of biological systems. It does so by considering the boundaries of biological systems, from individual cells to Home sapiens, in terms of the presence of Markov blankets under the active inference scheme – a corollary of the free energy principle. A Markov blanket defines the boundaries of a system in a statistical sense. Here we consider how a collective of Markov blankets can self-assemble into a global system that itself has a Markov blanket; thereby providing an illustration of how autonomous systems can be understood as having layers of nested and self-sustaining boundaries. This allows us to show that: (i) any living system is a Markov blanketed system and (ii) the boundaries of such systems need not be co-extensive with the biophysical boundaries of a living organism. In other words, autonomous systems are hierarchically composed of Markov blankets of Markov blankets – all the way down to individual cells, all the way up to you and me, and all the way out to include elements of the local environment.
Parr T. & Friston K. J. (2017) The active construction of the visual world. Neuropsychologia 104: 92–101. https://cepa.info/5878
Parr T. & Friston K. J.
(
2017)
The active construction of the visual world.
Neuropsychologia 104: 92–101.
Fulltext at https://cepa.info/5878
What we see is fundamentally dependent on where we look. Despite this seemingly obvious statement, many accounts of the neurobiology underpinning visual perception fail to consider the active nature of how we sample our sensory world. This review offers an overview of the neurobiology of visual perception, which begins with the control of saccadic eye movements. Starting from here, we can follow the anatomy backwards, to try to understand the functional architecture of neuronal networks that support the interrogation of a visual scene. Many of the principles encountered in this exercise are equally applicable to other perceptual modalities. For example, the somatosensory system, like the visual system, requires the sampling of data through mobile receptive epithelia. Analysis of a somatosensory scene depends on what is palpated, in much the same way that visual analysis relies on what is foveated. The discussion here is structured around the anatomical systems involved in active vision and visual scene construction, but will use these systems to introduce some general theoretical considerations. We will additionally highlight points of contact between the biology and the pathophysiology that has been proposed to cause a clinical disorder of scene construction – spatial hemineglect.
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