ライフサイエンスコーパス: visual perception

1 clarifying the neural mechanisms underlying visual perception.

2 terindividual differences in many aspects of visual perception.

3 ior alpha activity, selectively facilitating visual perception.

4 ges that map onto life-long changes in human visual perception.

5 ociation with certain age-related changes in visual perception.

6 sociated with interindividual differences in visual perception.

7 rves as a useful model for both auditory and visual perception.

8 convincingly demonstrate top-down effects on visual perception.

9 tary form, use second-order stimuli to guide visual perception.

10 ce that this circuit actually contributes to visual perception.

11 tivation should antagonize TMS disruption of visual perception.

12 ained within the higher processing stages of visual perception.

13 t neural correlate of serial dependencies in visual perception.

14 ating this brain circuit alters the monkey's visual perception.

15 Human social nature has shaped visual perception.

16 r intuition is based on considerations about visual perception.

17 y, vernier acuity, binocular stereopsis, and visual perception.

18 dict variation in the temporal resolution of visual perception.

19 ter science, utilize eye tracking to measure visual perception.

20 elationship between IT cortex and high-level visual perception.

21 ntrol and CC neurons being more important in visual perception.

22 NCE STATEMENT Human social nature has shaped visual perception.

23 performance in terms of its correlation with visual perception.

24 l mechanism for the temporal organization of visual perception.

25 poses related to the maintenance of accurate visual perception.

26 xert a variety of functional roles including visual perception.

27 in a clutter, fundamentally limits conscious visual perception.

28 a neural correlate of this property of human visual perception.

29 tal cortex predict the stability of bistable visual perception.

30 ng and potentially confusable stimuli during visual perception.

31 s and schizophrenia, it also plays a role in visual perception.

32 on responses in visual cortex contributes to visual perception.

33 ear whether this organization contributes to visual perception.

34 le moving objects is an essential ability of visual perception.

35 n or affects other non-temporal qualities of visual perception.

36 ponses of cell types that play a key role in visual perception.

37 ar alignment and motility, visual field, and visual perception.

38 perception is fundamental to many aspects of visual perception.

39 in rod and cone photoreceptors initiates our visual perception.

40 able variability, which has consequences for visual perception.

41 d has been correlated with visual acuity and visual perception.

42 suggest that emotion shapes basic aspects of visual perception.

43 derstanding genetic mechanisms that underlie visual perception.

44 ther and how temporal expectations influence visual perception.

45 s by which temporal expectation can modulate visual perception.

46 hmical brain activity leads to modulation of visual perception.

47 a network involved in the "what?" pathway of visual perception.

48 at are thought to be important for conscious visual perception.

49 flect impaired learning rather than impaired visual perception.

50 s are involved in generating the contents of visual perception.

51 ocessing visual information and for accurate visual perception.

52 of selective attention and consciousness on visual perception.

53 mplex object representations associated with visual perception.

54 it is crucial to account for the receiver's visual perception.

55 hanges affect the retinal output and thereby visual perception.

56 ly within the brain, and can support spatial visual perception.

57 features of the images from the two eyes for visual perception.

58 d valuable insights into the neural basis of visual perception.

59 population of neurons that are critical for visual perception.

60 rons and ultimately determine the quality of visual perception.

61 suggests modifying the hierarchical view of visual perception.

62 r memory, attention, executive functions and visual perception.

63 tatistics of natural scenes in shaping human visual perception.

64 ial value for advancing our understanding of visual perception.

65 g object individuation and identification in visual perception.

66 a smaller cortical area allocated to primary visual perception.

67 anization of the adult visual system affects visual perception.

68 y to primary visual cortex (VISp) to mediate visual perception.

69 criptions of how cone signaling shapes human visual perception.

70 visual environment has a profound impact on visual perception.

71 an OFF, increasing the dominance of darks in visual perception.

72 rnate subcortical pathways can contribute to visual perception.

73 ssion as a decisive determinant of mammalian visual perception.

74 stream neural circuits, ultimately producing visual perception.

75 circadian entrainment but also contribute to visual perception.

76 e-dependent influence of GABA level on human visual perception.

77 e-dependent influence of GABA level on human visual perception.

78 Attention exerts a powerful influence on visual perception.

79 distinction that our brains make during the visual perception.

80 s of cortical processing, reflecting bias in visual perceptions.

81 ion and ocular surface health and subjective visual perceptions.

82 for optimizing the synthesis and storage of visual perceptions.

83 d of substantial behavioural knowledge about visual perception, a growing desire to know the underlyi

84 Visual perception across a broad range of light levels i

85 tial properties of entrained oscillations of visual perception across the visual field.

86 ating mechanism that predictively influences visual perception after an eye movement.

87 creates a new critical period that restores visual perception after childhood deprivation.

88 addition, we show that the dark dominance in visual perception also increases in strabismic amblyopes

89 ce can use contrast-defined stimuli to guide visual perception, although behavioral performance and n

90 A caused by mutations in CEP290 have reduced visual perception, although they present with a fully la

91 has implicated the primate basal ganglia in visual perception and attention, in addition to their tr

92 nce suggest that the FEF also contributes to visual perception and attention.

93 Visual perception and behavior are mediated by cortical

94 role of specific cell types and circuits in visual perception and behavior-something rare to find in

95 ow identified circuit elements contribute to visual perception and behavior.

96 ade in blind migraine patients devoid of any visual perception and blind migraine patients capable of

97 m for synchronizing brain regions to support visual perception and cognition more broadly.

98 In visual perception and cognition such biases can be commo

99 europsychological impairment, especially for visual perception and cognitive proficiency.

100 rom studies showing periodic fluctuations in visual perception and decision making that are accompani

101 a specific role for the perirhinal cortex in visual perception and establish a functional homology fo

102 Visual perception and eye movements are considered to be

103 ls related to eye position are essential for visual perception and eye movements, and are powerful mo

104 perception) mediates relations between basic visual perception and functional status in patients with

105 visual system inputs-cone photoreceptors-and visual perception and have implications for the neural l

106 role of neuronal oscillations in multiobject visual perception and in limiting the attentional capaci

107 nt of an artificial agent, even through mere visual perception and in the absence of any cross-modal

108 Atypical visual perception and integration have been recognized a

109 events during surgery occur due to errors in visual perception and judgment leading to misinterpretat

110 The same cortical tissue can take on visual perception and language functions.

111 nstrate the intimate neural coupling between visual perception and motor representation that underlie

112 Here, we probed mouse visual perception and neural responses in areas V1 and L

113 ised to play a broad and integrative role in visual perception and recognition-the functional domain

114 ptual heterogeneity is a general property of visual perception and results from undersampling of the

115 Cognitive processes such as visual perception and selective attention induce specifi

116 tuning in linking visual cortical anatomy to visual perception and suggest that a perceptually advant

117 Continuous visual perception and the dark adaptation of vertebrate

118 Much of the information used for visual perception and visually guided actions is process

119 populations can thus have direct effects on visual perceptions and need to be included in neural dec

120 lds (a measure of the temporal resolution of visual perception) and the frequency of eyes-closed and

121 r outer segments (OSs) are essential for our visual perception, and take either rod or cone forms.

122 nce for eye movements, contributes to stable visual perception, and when defective, might be related

123 ontributions of specific retinal pathways to visual perception are not well understood.

124 main subcortical pathways serving conscious visual perception are the midget-parvocellular (P), and

125 cific links between midget RGC responses and visual perception are unclear.

126 al output is visually guided behavior, while visual perceptions are an intermediate product.

127 Visual perceptions are thus rapidly and efficiently boos

128 Using repetition priming in visual perception as a model task, we found that excludi

129 o intuition, resulting in their treatment of visual perception as context-free.

130 over whether the hippocampus is critical for visual perception as well as memory.

131 ion-selective responses in mouse V1 may bias visual perception, as evidenced by changes in the direct

132 ncludes selective deficits in spatiotemporal visual perception associated with neural processing in f

133 NIFICANCE STATEMENT Recent studies show that visual perception at a given moment is not entirely veri

134 t human brain oscillations periodically gate visual perception at around 7 Hz by providing transient

135 ization may contribute to the improvement of visual perception at attended times.

136 on on its function and its relation to human visual perception at the time of the saccade.

137 we found this effect in three unique tasks: visual perception, auditory perception, and visual memor

138 ape a dendritic arbor.SIGNIFICANCE STATEMENT Visual perception begins in the retina, where distinct t

139 Visual perception begins with the absorption of a photon

140 est that brain dynamics underlying conscious visual perception belongs to the class of initial-state-

141 across multiple studies within the field of visual perception, but also they have general applicatio

142 Such temporal attention improves our visual perception, but how it does so is not well unders

143 arly visual areas are required for conscious visual perception, but recent evidence suggests that par

144 e tested the influence of this CD circuit on visual perception by first training macaque monkeys to r

145 Remarkably, they were able to manipulate visual perception by forcing brain oscillations of the l

146 mma oscillations have been argued to support visual perception by synchronizing the processing and tr

147 tory activity in mediating the modulation of visual perception by temporal expectation.

148 upt recurrent processing so that its role in visual perception can be elucidated.

149 ar model system for early visual processing, visual perception can be guided by second-order stimuli

150 By employing an artificial visual perception circuit including a metal chalcogenide

151 fMRI study, we instantiated reliable unaware visual perception conditions by means of continuous flas

152 In this fMRI study, we instantiated unaware visual perception conditions, by dynamically suppressing

153 Search terms included visual perception, contour interaction, crowding, crowde

154 suggesting that linguistic communication and visual perception convey partially redundant appearance

155 of V1 continue changing, or later changes in visual perception depend on extrastriate areas.

156 Visual perception depends on integration of the eyes' ra

157 ssue of whether dopamine activation improves visual perception despite increasing sensory noise in th

158 vestigated how affective significance shapes visual perception during an attentional blink paradigm c

159 esults in Drosophila echo the suppression of visual perception during rapid eye movements in primates

160 potential neural mechanisms for stabilizing visual perception during self-motion that build on neuro

161 s on the link between social interaction and visual perception: effective interaction with others oft

162 of language comprehension, social cognition, visual perception, emotion, somato-sensory, cognitive an

163 first synapse in the retina is important for visual perception, enhancing image contrast, color discr

164 ard associations increase the sensitivity of visual perception, even when sounds and reward associati

165 Neural networks underlying visual perception exhibit oscillations at different freq

166 ere, we argue that, in a functional model of visual perception, featuring probabilistic inference ove

167 is often taken as evidence of their role in visual perception, few studies have directly tested this

168 re I review similar arguments arising in the visual perception field and further propose that the evo

169 (a German baked cake) and tomato ketchup on visual perception, flavour expectations, and the ensuing

170 ation can facilitate performance in tasks of visual perception, for instance by speeding up responses

171 eal a feature-specific shift in the scope of visual perception from context-oriented to detail-orient

172 d a comprehensive standardised assessment of visual perception, general intelligence and academic ach

173 The impact of object size on visual perception has been well-demonstrated, from class

174 Recent reports of differences in visual perception have challenged this notion, but littl

175 ual differences in cortical surface area and visual perception have, until now, remained unknown.

176 in detail: gamma-frequency synchrony during visual perception, hippocampal-prefrontal synchrony duri

177 Our visual perception, however, remains stable.

178 Stereoscopic vision plays a critical role in visual perception; however, it is difficult to assess.

179 Attention is a critical component of visual perception; however, the mechanisms of attention

180 ges in V1 are often interpreted as improving visual perception (i.e., perceptual learning).

181 portant for memory, multiple memory systems, visual perception, immediate memory, memory consolidatio

182 nonmotor symptoms of PD, including disrupted visual perception, impaired cognition across a range of

183 sts that they provide valuable advantages to visual perception in advanced visual systems.

184 urons rapidly regulate cortical activity and visual perception in awake, behaving mice.

185 es the contribution of a midbrain network to visual perception in chickens.

186 ion of optokinetic nystagmus correlates with visual perception in higher mammals.

187 We found that visual perception in humans is serially dependent, using

188 Visual perception in humans occurs through absorption of

189 ates cross-modal threat integration in basic visual perception in humans that captures minimal threat

190 ural mechanisms related to high-level social visual perception in humans.

191 MENT Subjects use attention to improve their visual perception in several ways, including by attendin

192 t the potential relevance of fluorescence in visual perception in terrestrial environments.

193 hree or more cells carries information about visual perception in the absence of firing rate modulati

194 to examine the signaling pathway involved in visual perception in the closely related fungus Blastocl

195 eedback to early visual cortex might support visual perception in the sighted [1] and drive the recru

196 of the pathways and computations that enable visual perception in vertebrate species.

197 ngoing brain oscillations (7-10 Hz) modulate visual perception; in particular, their precise phase ca

198 Recent interest in the rodent as a model for visual perception, including higher-level functional spe

199 estigate whether such spontaneous changes in visual perception involve occipital brain regions specia

200 Visual perception involves information flow from lower-

201 Understanding the neural basis of visual perception is a long-standing fundamental goal of

202 Human visual perception is both stable and adaptive.

203 itation thereof.SIGNIFICANCE STATEMENT Human visual perception is determined not just by the light th

204 In contrast, in primates, visual perception is dominated by information transmitte

205 This visual perception is governed by the law of simplicity,

206 The results show that visual perception is intact in memory-impaired patients

207 t contribution melanopsin makes to conscious visual perception is less studied.

208 Our visual perception is most responsive to stimulating ligh

209 In the meantime, visual perception is often categorical [7-10].

210 Visual perception is often considered the product of a m

211 rate retina, neuronal circuitry required for visual perception is organized within specific laminae.

212 Conscious visual perception is proposed to arise from the selectiv

213 However, visual perception is tightly coupled to eye movements, w

214 n use such second-order information to guide visual perception is unknown.

215 tinal signals evoked by saccades can enhance visual perception, it remains unknown whether and how pr

216 the duration of co-occurring sounds affects visual perception; it changes visual sensitivity in a si

217 ncreases physiological arousal, and enhances visual perception of affective stimuli.

218 g suggests that the neural correlates of the visual perception of architectural styles stem from styl

219 perior temporal sulcus (pSTS), implicated in visual perception of biological motion.

220 However, the precise link between enhanced visual perception of emotion-laden items and increased v

221 tigate how aversive olfactory inputs enhance visual perception of highly degraded, subthreshold fearf

222 The visual perception of identity in humans and other primat

223 Four questions probing visual perception of light in the bedtime and waking env

224 the absorption spectra of pigments limit our visual perception of light.

225 hese differences have parallels in the human visual perception of lights and darks.

226 gated the cortical mechanisms underlying the visual perception of luminance-defined surfaces and the

227 The role of color in the visual perception of mirror-symmetry is controversial.

228 ther, these findings clearly show that human visual perception of near infrared light occurs by two-p

229 research has shown that alpha phase predicts visual perception of near-threshold stimuli and subseque

230 rast-to-noise (P < .001) ratios; (c) similar visual perception of noise on mediastinal (P = .132) and

231 or the first time that mice exhibit bistable visual perception of plaid stimuli, and that this depend

232 ized region of the retina that dominates the visual perception of primates by providing high chromati

233 m with low imaging system noise enhances the visual perception of small objects that correspond to ty

234 etween quantitative texture analysis and the visual perception of textures.

235 et of posterior brain areas activated by the visual perception of the body ("visual body network").

236 Visual perception of the environment plays an important

237 al activation of channelrhodopsin-2 with the visual perception of the flies, we used a bistable varia

238 To further improve a visual perception of the layout produced by the annealin

239 ind that this manipulation also affected the visual perception of the size of that object.

240 such as faces and bodies, are essential for visual perception of these object categories.

241 behaving monkeys to test the hypothesis that visual perception of uniform surfaces is mediated by an

242 aces the previously proposed hypothesis that visual perception of uniform surfaces is mediated by an

243 Here, we probed visual perception on a fine-grained temporal scale to st

244 with schizophrenia (SZ) experience abnormal visual perception on a range of visual tasks, which have

245 We evaluated the effect of change in visual perception on saccade and on the two modalities o

246 uring rest and while they performed either a visual perception or a motor sequence task.

247 whether frontal brain areas are involved in visual perception or merely use information from visual

248 readily explained as a simple impairment in visual perception or motor execution.

249 on within the surgical field based on either visual perception or the raw fluorescence emissions can

250 al inhibition and has a general influence on visual perception or whether the GABA levels of differen

251 altered expression of genes involved in the visual perception pathway.

252 Photoreceptors for visual perception, phototaxis or light avoidance are typ

253 nt research showing nonoptical influences on visual perception, pointing out possible methodological

254 complex cognition underpinned by aspects of visual perception, proprioception, and touch.

255 ether the association between GABA level and visual perception reflects a general influence of visual

256 g gamma-band activity.SIGNIFICANCE STATEMENT Visual perception relies on a feedforward flow of inform

257 research, the neural correlates of conscious visual perception remain elusive.

258 ations, the role of this feedback circuit in visual perception remained elusive.

259 But how these map onto distinct aspects of visual perception remains elusive.

260 rature on the neural correlates of conscious visual perception remains inconclusive regarding the ext

261 Yet how cortical responses relate to visual perception remains poorly understood.

262 Visual perception requires both visual information and a

263 While accurate visual perception requires precise binocular coordinatio

264 It is generally accepted that visual perception results from the activation of a feed-

265 How does visual perception shape the way we coordinate movements?

266 underlie the selective influence of GABA on visual perception.SIGNIFICANCE STATEMENT GABA, the prima

267 mportant for coordinating body movements and visual perception.SIGNIFICANCE STATEMENT We found that t

268 In the particular domain of visual perception, specific frequency bands in different

269 compensates for this disruption, keeping our visual perception stable.

270 c and scotopic adaptation) of the biological visual perception system is presented.

271 Emulating the biological visual perception system typically requires a complex ar

272 ricate an environmental-adaptable artificial visual perception system with profound implications for

273 of the serious challenges for the artificial visual perception system.

274 duals can revise their initial judgment in a visual perception task after observing a predecessor's j

275 Participants performed a visual perception task and provided two types of report:

276 ed what information the brain processes in a visual perception task and visualized the dynamic repres

277 human subjects performing a threshold-level visual perception task.

278 the visual closure subtest of the Motor Free Visual Perception Test (MVPT) examining the ability to r

279 xperience may in part be driven by a bias in visual perception that causes images to be perceived as

280 enes is a familiar and fundamental aspect of visual perception that causes negative afterimages, fadi

281 image representation of one eye, leading to visual perception that is essentially contributed by the

282 e input to the retina is converted into rich visual perceptions that constitute an integral part of v

283 During visual perception, the brain enhances the representation

284 In full accordance with effects in visual perception, the key behavioral and neuronal chara

285 as, which were enriched for genes related to visual perception, the phototransduction pathway, and nu

286 etinal circuit can provide useful artificial visual perception, the resolutions of current retinal pr

287 bjects are known to contextually interact in visual perception, the study of high-level vision has mo

288 Retinal stimulation can restore limited visual perception to patients with retinitis pigmentosa,

289 t-evoked behaviors that range from conscious visual perception to subconscious, non-image-forming beh

290 Extending our understanding of visual perception to the mouse model is justified by the

291 However, most theories of visual perception treat contributions of neurons to the

292 he optical centre of the retina make primate visual perception unique among mammals.

293 We studied visual perception using an annular random-dot motion sti

294 f ownership on another fundamental aspect of visual perception: visual awareness.

295 arly in the evolution of vertebrate species, visual perception was dominated by information transmitt

296 Visual perception was the most impaired domain, while sc

297 tform that combines generative grammars with visual perception, we accessed the mind's eye of 30 West

298 In studying visual perception, we seek to develop models of processi

299 visual cortex (V1) lead to loss of conscious visual perception with significant impact on human patie

300 invariant" object recognition--is central to visual perception, yet its computational underpinnings a