Investigations on bottom-up and top-down processing in early visual cortex with high-resolution fMRI

Ingo Marquardt

doi:10.26481/dis.20190829im

Investigations on bottom-up and top-down processing in early visual cortex with high-resolution fMRI

Ingo Marquardt

Research output: Thesis › Doctoral Thesis › Internal

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Abstract

We employed cutting-edge high-resolution functional magnetic resonance imaging (fMRI) at sub-millimetre resolution to study visual perception in the human brain. First, we studied bottom-up (i.e. sensory driven) processing in visual cortex. In particular, we investigated how variations in simple physical properties of a visual stimulus affect neuronal activity in visual brain areas. This research was followed by a complementary study on top-down effects. The term ‘top-down’ is used to describe aspects of perception and cognition that are not directly driven by physical properties of the sensory input, but by prior knowledge, expectations, attention, or other high-level mechanisms. In summary, we provide novel insights on the detailed spatial profile of bottom-up and top-down processing in human visual cortex, and have employed a new modelling technique to account for known biases in the high-resolution fMRI signal

Original language	English
Awarding Institution	Maastricht University
Supervisors/Advisors	Goebel, Rainer, Supervisor Uludağ, Kâmil, Co-Supervisor
Award date	29 Aug 2019
Place of Publication	Maastricht
Publisher	ProefschriftMaken Maastricht
Print ISBNs	9789463804721
DOIs	https://doi.org/10.26481/dis.20190829im
Publication status	Published - 2019

Keywords

High-resolution fMRI
Visual cortex
Cortical layers
Visual perception
Bottom-up
Top-down

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10.26481/dis.20190829imLicence: CC BY

Full TextFinal published version, 10.9 MBLicence: CC BY
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Cite this

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title = "Investigations on bottom-up and top-down processing in early visual cortex with high-resolution fMRI",

abstract = "We employed cutting-edge high-resolution functional magnetic resonance imaging (fMRI) at sub-millimetre resolution to study visual perception in the human brain. First, we studied bottom-up (i.e. sensory driven) processing in visual cortex. In particular, we investigated how variations in simple physical properties of a visual stimulus affect neuronal activity in visual brain areas. This research was followed by a complementary study on top-down effects. The term {\textquoteleft}top-down{\textquoteright} is used to describe aspects of perception and cognition that are not directly driven by physical properties of the sensory input, but by prior knowledge, expectations, attention, or other high-level mechanisms. In summary, we provide novel insights on the detailed spatial profile of bottom-up and top-down processing in human visual cortex, and have employed a new modelling technique to account for known biases in the high-resolution fMRI signal",

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AB - We employed cutting-edge high-resolution functional magnetic resonance imaging (fMRI) at sub-millimetre resolution to study visual perception in the human brain. First, we studied bottom-up (i.e. sensory driven) processing in visual cortex. In particular, we investigated how variations in simple physical properties of a visual stimulus affect neuronal activity in visual brain areas. This research was followed by a complementary study on top-down effects. The term ‘top-down’ is used to describe aspects of perception and cognition that are not directly driven by physical properties of the sensory input, but by prior knowledge, expectations, attention, or other high-level mechanisms. In summary, we provide novel insights on the detailed spatial profile of bottom-up and top-down processing in human visual cortex, and have employed a new modelling technique to account for known biases in the high-resolution fMRI signal

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