Ernest Greene
Overview
Explore the profile of Ernest Greene including associated specialties, affiliations and a list of published articles.
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Articles
31
Citations
99
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Recent Articles
1.
Greene E, Morrison J, Wang W
Eur J Neurosci
. 2024 Oct;
60(10):6429-6439.
PMID: 39401080
Flash sequences appear as steady emission of light if the frequency is above the flicker-fusion threshold. One can display flicker-fused letters against a background, and using the Talbot-Plateau law, vary...
2.
Zhang S, Morrison J, Sun T, Kowal D, Greene E
J Vis
. 2024 Jun;
24(6):9.
PMID: 38856981
Four experiments were conducted to gain a better understanding of the visual mechanisms related to how integration of partial shape cues provides for recognition of the full shape. In each...
3.
Greene E, Morrison J
Eur J Neurosci
. 2024 Jun;
60(3):4291-4302.
PMID: 38840566
The Talbot-Plateau law specifies what combinations of flash frequency, duration, and intensity will yield a flicker-fused stimulus that matches the brightness of a steady stimulus. It has proven to be...
4.
Greene E, Morrison J
Front Neurosci
. 2023 May;
17:1169162.
PMID: 37179545
The Talbot-Plateau law asserts that when the flux (light energy) of a flicker-fused stimulus equals the flux of a steady stimulus, they will appear equal in brightness. To be perceived...
5.
Zhang S, Morrison J, Wang W, Greene E
AIMS Neurosci
. 2023 Jan;
9(4):491-515.
PMID: 36660071
Shapes can be displayed as parts but perceived as a whole through feedforward and feedback mechanisms in the visual system, though the exact spatiotemporal relationships for this process are still...
6.
Burchfield T, Greene E
PLoS One
. 2020 May;
15(5):e0224530.
PMID: 32433696
Prior work has shown that humans can successfully identify letters that are constructed with a sparse array of dots, wherein the dot pattern reflects the strokes that would normally be...
7.
8.
Greene E
AIMS Neurosci
. 2020 Apr;
5(3):162-178.
PMID: 32341959
Models designed to explain how shapes are perceived and stored by the nervous system commonly emphasize encoding of contour features, especially orientation, curvature, and linear extent. A number of experiments...
9.
Nordberg H, Hautus M, Greene E
AIMS Neurosci
. 2020 Apr;
5(2):132-147.
PMID: 32341957
Prior research has found that known shapes and letters can be recognized from a sparse sampling of dots that mark locations on their boundaries. Further, unknown shapes that are displayed...
10.
Greene E, Hautus M
AIMS Neurosci
. 2020 Apr;
5(1):81-96.
PMID: 32341953
Many laboratories have studied persistence of shape information, the goal being to better understand how the visual system mediates recognition of objects. Most have asked for recognition of known shapes,...