@insurrealist ahhh thank you. An article that actually explains itself https://t.co/qJZjzso9bm
4. Neuronal nonlinearity explains greater visual spatial resolution for darks than lights http://t.co/KSX8qBPYNc
Neuronal nonlinearity explains greater visual spatial resolution for darks than lights. |$| http://t.co/l5q5PxDZR8 #neuro #science
Neuronal nonlinearity explains greater visual spatial resolution for darks than lights http://t.co/fAQcJz5aU5
Neuronal nonlinearity explains greater visual spatial resolution for dark stimuli than light stimuli: http://t.co/kxf45bnpAn
Twinkle twinkle little star, how I wonder if neuronal nonlinearity explains visual spatial resolution asymmetry http://t.co/Icp3TpkvwX
A "neurophysiological explanation for an almost four-century-old puzzle dating back to #Galileo" http://t.co/1IkCV7SaWa #sensoryevolution
Wait a sec ... does this mean the Colour appears bigger than it really is? http://t.co/X54pcbMxcd http://t.co/gnAt12I936 #Lovecraft
Wait a sec ... does this mean the Colour appears bigger than it really is? http://t.co/X54pcbMxcd http://t.co/gnAt12I936 #Lovecraft
SUNY #optometry researchers answer Galileo's 400-yr old question on planetary #visual illusion http://t.co/4uGrbPjeFv
The "real" difference between the perception of lights and darks http://t.co/e83w2Kj7eH
like black on white? scientists blame neurons for "visual spatial resolution higher for dark than light stimuli" http://t.co/cbh1j6ylSW
Cortical visual neurons are more strongly driven by darks than lights #Neuroophthalmology http://t.co/EBaIKEBhqz
Neuronal nonlinearity explains greater visual spatial resolution for dark stimuli than light stimuli: http://t.co/kxf45bnpAn
Neuronal nonlinearity explains greater visual spatial resolution for darks than lights http://t.co/QjxESfEb9o
The Secret Behind Galileo’s Illusion http://t.co/7p49i5kO6M
The Secret Behind Galileo’s Illusion http://t.co/7p49i5kO6M
Stay tuned for more info about our researchers' ground-breaking study on a centuries old mystery http://t.co/fjLe9pYsqw via @PNASNews
明るい場所・時より暗い場所・時の方が「よく見える」のは暗黒で活動するOFFニューロンの活動(vs. ONニューロン)が輝度の低下に伴って増加するため。 Neuronal nonlinearity explains greater …http://t.co/BeW5iNpz5t
SUNY Optometry researchers discover the brain mechanisms behind a long held mystery http://t.co/ZCJnQttKrb via @PNASNews