RT @Neuro_Physics: Matches well with studies showing vectorial, goal distance (and direction) coding by individual neurons in the rodent hi…
RT @Neuro_Physics: Matches well with studies showing vectorial, goal distance (and direction) coding by individual neurons in the rodent hi…
Matches well with studies showing vectorial, goal distance (and direction) coding by individual neurons in the rodent hippocampus during virtual navigation. https://t.co/8wgkcazFQv https://t.co/QMMx9UbATD
@kir0ul @science_is_hard I like this paper for showing differences between freely-moving and head-fixed. Shows that head-fixed is lacking https://t.co/TNKtE26cKt not sure of anything showing activity in head-fixed that's not in freely-moving though! would
@ElDuvelle We did back-back RW-VR comparisons: Early review https://t.co/QTVYK7raUw Similar CA1 directionality in 2D RW-VR https://t.co/ICLSpZ7fgM Temporal code intact in 2DVR, lost spatial selectivity https://t.co/8wgkcaQISv Distance code in VR, place in
RT @ugschneck: Saw an interesting talk today by a biophysics grad student at @UCLA on studying how the brain understands spatial cues. The…
Saw an interesting talk today by a biophysics grad student at @UCLA on studying how the brain understands spatial cues. The highlight of which is that someone, somewhere, made tiny #VR goggles for rats and made them run around virtual mazes. https://t.co/
Are our brains unable to understand virtual reality? https://t.co/NFgw1x8rDl
Impaired spatial selectivity and intact phase precession in two-dimensional virtual reality. - PubMed - NCBI https://t.co/9Bq4Aj5xo5
Key to making virtualreality better: understanding how spatial perception works. #VirtualReality Via @NatureNeuro https://t.co/SKdA1Wdb1c
RT @neuroclef: 2D VR is no good for rat hippocampal physiology http://t.co/NfF1vFU1rL
2D VR is no good for rat hippocampal physiology http://t.co/NfF1vFU1rL
Impaired spatial selectivity and intact phase precession in two-dimensional virtual reality – http://t.co/KfyE6KY47L
The neural bases of uninstructed negative emotion modulation https://t.co/PsvLYkokdx
The neural bases of uninstructed negative emotion modulation https://t.co/PsvLYkokdx
The neural bases of uninstructed negative emotion modulation https://t.co/PsvLYkokdx
This paper explains why real world movement enhances visual spatial processing... http://t.co/bimV93Bl4j
場所細胞は仮想現実ではあまり出ないらしい。http://t.co/pGWZWuY3XE
#Neuroscienze Reale vs Virtuale: uno studio su Nature dimostra le diverse reazioni del cervello in questi 2 ambienti http://t.co/1RV5KXWVMs
Impaired spatial selectivity and intact phase precession in two-dimensional virtual reality http://t.co/o353wuVQYU
How does the brain react to virtual reality? A new study offers some insights http://t.co/r67aYIHLG8
How does the brain react to virtual reality? A new study offers some insights http://t.co/r67aYIHLG8
How does the brain react to virtual reality? A new study offers some insights http://t.co/r67aYIHLG8
space-mapping neurons in the brain react differently to virtual reality http://t.co/Tg0BqDtC2T
New Nature Neuro paper: Impaired spatial selectivity and intact phase precession in two-dimensional virtual reality http://t.co/im8lOGGQgF
BRAIN reaction to VIRTUAL REALITY.... http://t.co/mOxT6wDNFC
Impaired spatial selectivity and intact phase precession in two-dimensional virtual reality http://t.co/zLTIH0O7Xr
2Dのバーチャルリアリティでは海馬ニューロンの場所特異性が減少。距離への特異性は小さいながら存在。空間的なコードは弱いが、時間的なコードは可能。常同的経路で空間/距離選択性が増加。Impaired spatial … http://t.co/GkEFfyR3Uc