[HTML][HTML] Neural circuits in the mouse retina support color vision in the upper visual field
Color vision is essential for an animal’s survival. It starts in the retina, where signals from
different photoreceptor types are locally compared by neural circuits. Mice, like most mammals, …
different photoreceptor types are locally compared by neural circuits. Mice, like most mammals, …
[PDF][PDF] Natural environment statistics in the upper and lower visual field are reflected in mouse retinal specializations
Pressures for survival make sensory circuits adapted to a species' natural habitat and its
behavioral challenges. Thus, to advance our understanding of the visual system, it is essential …
behavioral challenges. Thus, to advance our understanding of the visual system, it is essential …
An arbitrary-spectrum spatial visual stimulator for vision research
…, Z Zhao, MJY Zimmermann, P Bartel, Y Qiu, KP Szatko… - elife, 2019 - elifesciences.org
10.7554/eLife.48779.001 Visual neuroscientists require accurate control of visual stimulation.
However, few stimulator solutions simultaneously offer high spatio-temporal resolution and …
However, few stimulator solutions simultaneously offer high spatio-temporal resolution and …
[HTML][HTML] The temporal structure of the inner retina at a single glance
Z Zhao, DA Klindt, A Maia Chagas, KP Szatko… - Scientific reports, 2020 - nature.com
The retina decomposes visual stimuli into parallel channels that encode different features of
the visual environment. Central to this computation is the synaptic processing in a dense …
the visual environment. Central to this computation is the synaptic processing in a dense …
A chromatic feature detector in the retina signals visual context changes
The retina transforms patterns of light into visual feature representations supporting behaviour.
These representations are distributed across various types of retinal ganglion cells (RGCs…
These representations are distributed across various types of retinal ganglion cells (RGCs…
Removing inter-experimental variability from functional data in systems neuroscience
D Gonschorek, L Höfling, KP Szatko… - Advances in …, 2021 - proceedings.neurips.cc
Integrating data from multiple experiments is common practice in systems neuroscience but
it requires inter-experimental variability to be negligible compared to the biological signal of …
it requires inter-experimental variability to be negligible compared to the biological signal of …
[HTML][HTML] Efficient coding of natural scenes improves neural system identification
Neural system identification aims at learning the response function of neurons to arbitrary
stimuli using experimentally recorded data, but typically does not leverage normative …
stimuli using experimentally recorded data, but typically does not leverage normative …
Efficient coding of natural scenes improves neural system identification
Neural system identification aims at learning the response function of neurons to arbitrary
stimuli using experimentally recorded data, but typically does not leverage normative …
stimuli using experimentally recorded data, but typically does not leverage normative …
Mouse retinal specializations reflect knowledge of natural environment statistics
Pressures for survival drive sensory circuit adaption to a species’ habitat, making it essential
to statistically characterise natural scenes. Mice, a prominent visual system model, are …
to statistically characterise natural scenes. Mice, a prominent visual system model, are …
What the eye tells the brain: retinal feature extraction
KP Szatko, K Franke - Neuroforum, 2022 - degruyter.com
To provide a compact and efficient input to the brain, sensory systems separate the incoming
information into parallel feature channels. In the visual system, parallel processing starts in …
information into parallel feature channels. In the visual system, parallel processing starts in …