ライフサイエンスコーパス: psychophysics

1 rediction of this account with 'model-driven psychophysics'.

2 oral trials, visual modeling, and laboratory psychophysics.

3 by applying it to the recovery of models in psychophysics.

4 sory receptors except for one study on human psychophysics.

5 ence (BMLD), an established measure in human psychophysics.

6 multivariate regression and clustering, and psychophysics.

7 regions in natural images, as well as human psychophysics.

8 riguing resemblance to observations in human psychophysics.

9 ssion seen for perisaccadic stimuli in human psychophysics.

10 nipulations of neural activity with rigorous psychophysics.

11 ctive and mechanistic underpinnings of human psychophysics.

12 is thus consistent with key trends in human psychophysics.

13 ng functional magnetic resonance imaging and psychophysics.

14 nd V3 was stronger, too strong to agree with psychophysics.

15 benefited from the long tradition of visual psychophysics.

16 orrect discrimination, and we found that the psychophysics accounted for 96.5% of the variance in the

17 Combining psychophysics and behavioral approaches, we show that sp

18 Here, we used a combination of behavioural psychophysics and biologically-motivated computational m

19 t physical surfaces, validated through human psychophysics and biomimetic sensing.

20 eripheral retinal dysfunction was evident by psychophysics and by maximum amplitude loss for rod- and

21 We use a combination of behavioral psychophysics and computational modeling to identify pla

22 bining the first TRN ensemble recording with psychophysics and connectivity-based optogenetic tagging

23 Using psychophysics and electroencephalography (EEG), we asses

24 In three experiments, a combination of psychophysics and electroencephalography was used to inv

25 ver, were obtained from human subjects using psychophysics and fMRI, a fact that fundamentally limits

26 ty of the primary somatosensory cortex using psychophysics and functional imaging (fMRI).

27 We confirmed this with psychophysics and functional magnetic resonance imaging,

28 onfidence and tested their predictions using psychophysics and functional magnetic resonance imaging.

29 participant numbers, such as in traditional psychophysics and in precision imaging.

30 We use psychophysics and MEG to test how sensitivity to input s

31 Combining psychophysics and model-based representational fMRI and

32 the attended feature, as shown by studies in psychophysics and modeling [11, 12], imaging [13-16], an

33 Here, we present results from psychophysics and modeling that supports the use of imag

34 We tested this hypothesis using human psychophysics and monkey neurophysiology combined with p

35 Here we used olfactory psychophysics and multivariate fMRI techniques, in the c

36 In two psychophysics and neuroimaging experiments, we character

37 This psychophysics and neuroimaging study shows that the brai

38 scuss testable predictions of our theory for psychophysics and neurophysiological experiments.

39 incipled general framework for analyzing the psychophysics and neurophysiology of defocus estimation

40 In this review of auditory psychophysics and perception, we cite some important boo

41 least 2 log units, and chromatic stimuli, by psychophysics and pupillometry, revealed retained but im

42 with independently set amounts; we had used psychophysics and rigorous economic concepts to estimate

43 Combining electroencephalography, psychophysics and signal detection theory, this multi-da

44 s provide an explanation for classic laws of psychophysics and their underlying neural mechanisms.

45 combines state-of-the-art computer graphics, psychophysics and vision science, cultural psychology an

46 We combined motion tracking, psychophysics, and computational analyses to uncover sin

47 s that bridge single-cell electrophysiology, psychophysics, and computational principles.

48 re, we use methods of mathematical modeling, psychophysics, and electrophysiology to address shortcom

49 Here we used computational modeling, psychophysics, and fMRI to show that adaptive learning i

50 ry, combining affective appraisal, olfactory psychophysics, and functional magnetic resonance imaging

51 nsfer function (MTF) is a staple of auditory psychophysics, and has been shown to predict speech inte

52 terozygotes using electroretinography (ERG), psychophysics, and optical coherence tomography (OCT).

53 ography (ERG), optical coherence tomography, psychophysics, and photoaversion testing.

54 hi motion, has been well-characterized using psychophysics, and several models have been proposed to

55 ological techniques, including neuroimaging, psychophysics, and traditional behavioral experiments, a

56 Here, using fMRI, psychophysics, and transcranial magnetic stimulation (TM

57 itative relationships between physiology and psychophysics are being investigated.

58 s in synaptic physiology, neural coding, and psychophysics are discussed, with reference to both vert

59 More recently, models and methods from psychophysics are guiding modern neuroimaging experiment

60 blindness, has been extensively studied with psychophysics as well as with fMRI.

61 xplore this issue, in combination with human psychophysics, awake behaving primate neurophysiology in

62 putational analysis framework for continuous psychophysics based on Bayesian inverse optimal control.

63 Combining psychophysics, Bayesian modeling, functional magnetic re

64 ently, research inspired by human studies in psychophysics, behavioral economics, and neuroaesthetics

65 tion of neural activity introduced to timing psychophysics by Miall, and implicated in Parkinsonian t

66 based on three experiments (two EEG and one psychophysics) by demonstrating that alpha-band oscillat

67 Animal psychophysics can generate rich behavioral datasets, oft

68 th the idea that children have an "intuitive psychophysics": children represent their own perceptual

69 This review outlines how continuous psychophysics complements traditional forced-choice meth

70 ults open the door to combining the power of psychophysics, computation, and physiology to better und

71 Psychophysics confirmed that the Elderly group has lower

72 Recent psychophysics data suggest that speech perception is not

73 (DNNs) could be constructed by training with psychophysics data.

74 f the SC in attention, combining model-based psychophysics, diffusion imaging, and tractography in hu

75 Visual psychophysics, diffusion-weighted magnetic resonance ima

76 tical decision-making using a combination of psychophysics, EEG and modelling.

77 Here, by combining psychophysics, electroencephalography (EEG), and modelin

78 ivate the salience network, as measured with psychophysics, electroencephalography and functional mag

79 Here we used psychophysics, electroencephalography, and computational

80 New discoveries in psychophysics, electrophysiology, imaging, and computati

81 Phenotype was characterized with psychophysics, electroretinography, and optical coherenc

82 Here, we used a combination of psychophysics, event-related potentials (ERPs), and quan

83 Subjects performed a psychophysics experiment designed to quantify the effect

84 -dependent errors that we found in our human psychophysics experiment when the sensory signals availa

85 ation in auditory stream segregation through psychophysics experiments and a computational model of a

86 human motion structure identification in two psychophysics experiments and found that perception of m

87 To test the model, we conducted psychophysics experiments in which both the size and the

88 idate our model by performing a set of human psychophysics experiments of an auditory parametric work

89 de experimental evidence toward this through psychophysics experiments on human subjects, thus sugges

90 a diverse set of stimuli, covering classical psychophysics experiments, ambiguous motion scenes, and

91 model fits human behavioural performance in psychophysics experiments, and also primate retinal gang

92 Model predictions are validated through psychophysics experiments.

93 ion and make testable predictions for future psychophysics experiments.

94 Here we leveraged high-yield rodent psychophysics, extensive behavioral modeling and brain-w

95 Using psychophysics, fMRI, and electroencephalography methodol

96 Using a concurrent psychophysics-fMRI experiment, we investigate how covert

97 We then review methods of psychophysics, focusing on the technical issues that ari

98 timulation (TMS) over the occipital pole and psychophysics for "neurometric" and psychometric assays

99 Combining psychophysics, functional magnetic resonance imaging (fM

100 tion known as "blindsight." Here we combined psychophysics, functional magnetic resonance imaging, an

101 this study, we used a combination of visual psychophysics, functional neuroimaging, multivoxel patte

102 he past decade, the emerging field of social psychophysics has developed new methods to address this

103 A rich tradition of normative psychophysics has identified two ubiquitous properties o

104 research integrating genetics, chemistry and psychophysics has led to a model for tomato flavor inten

105 Yet, psychophysics has revealed that people take into account

106 No rod function was measurable by psychophysics in any of the patients; markedly reduced c

107 es of fundus pathology and foveal cone-based psychophysics in future AMD trials.

108 Here, we used fMRI and psychophysics in the same observers to quantify individu

109 tion of experimental techniques from sensory psychophysics into the study of cognitive processes such

110 Continuous target-tracking psychophysics is an innovative experimental paradigm tha

111 es of processing and performance, continuous psychophysics is poised to drive important advances acro

112 for perception and sensorimotor control, and psychophysics is providing a growing body of evidence th

113 in crickets by using two paradigms of human psychophysics, labeling and habituation-dishabituation.

114 Inspired by Thurstonian approaches in the psychophysics literature, the model requires nothing fur

115 quency bias in spoken word recognition using psychophysics, magnetoencephalography (MEG), and computa

116 Combining psychophysics measurements and driving simulation, we co

117 several approaches were combined, including psychophysics, measurements of finger properties, modell

118 We combined psychophysics, measurements of finger properties, modell

119 Psychophysics measures the relationship between a stimul

120 Using psychophysics (n = 6 CIP participants and n = 86 healthy

121 Evidence from functional imaging, psychophysics, neurological studies and monkey electroph

122 Research from cognitive psychology, psychophysics, neuroscience, expert/novice differences,

123 Consistent with human psychophysics of "pop out," response enhancements increa

124 as a couple spent 50 years working in visual psychophysics of color vision, temporal vision, and lumi

125 he discharge of NS neurones better match the psychophysics of mechanical pain sensations in humans th

126 rdings, relatively little is known about the psychophysics of NH-sub-4Cl taste.

127 studies on central neurochemical effects and psychophysics of pain are examined.

128 Recent research in the psychophysics of perceptual binding and developments in

129 However, the psychophysics of S1 DCS is poorly studied, including any

130 we review it in the specific context of the psychophysics of stimulus comparison and the format and

131 arm cells compares well with the known human psychophysics of warm sensibility, and these neurones ar

132 y the "equivalent noise" paradigm applied in psychophysics, on the fly's motion-sensitive H1 neuron.

133 In neurophysiology, psychophysics, optical imaging and functional imaging st

134 eural sources are common as suggested by the psychophysics or distinct.

135 develop a Bayesian modeling framework and a psychophysics paradigm to quantitatively characterize th

136 bias was robustly confirmed using (1) human psychophysics, plus fMRI in (2) humans and (3) behaving

137 tional methodological developments of social psychophysics, present work done in the past decade that

138 achieved by implementing a combination of a psychophysics procedure with a quantum light source that

139 A recently developed approach, continuous psychophysics, promises to transform the field by abando

140 ning, with exciting recent insights into the psychophysics, psychology, and neural basis of auditory

141 A test battery using sensory psychophysics, psychometric tests, and measures of compo

142 ed a novel combination of electrophysiology, psychophysics, pupillometry, and computational modeling

143 relative motion and made measurements using psychophysics, retinotopic mapping, and pattern classifi

144 its behavioral dynamics were quantified with psychophysics, signal detection theory, and drift-diffus

145 We used behavioural psychophysics, spiking-circuit modelling and pharmacolog

146 Psychophysics studies have shown that target information

147 This psychophysics study assessed the impact of spatial and s

148 ss this issue, we developed a detection-like psychophysics task based on the classic rubber hand illu

149 the vagus nerve while participants performed psychophysics tasks or passively viewed a display.

150 been found to transfer to low-level visual "psychophysics tasks.

151 Combining fMRI and psychophysics, this study investigated how the human bra

152 We used human psychophysics to assess the impact of working-memory lim

153 ly been used to link brain to behavior, from psychophysics to cognitive tasks, augmenting those measu

154 dy-state visual evoked potentials and visual psychophysics to determine whether this is the case.

155 tual phenomena in fields ranging from visual psychophysics to economic choice.

156 We use psychophysics to measure crowding distance and calculate

157 dels (n = 2,408 models), and 2) using online psychophysics to measure human learning trajectories ove

158 We also used psychophysics to measure stereoacuity thresholds compare

159 tional magnetic resonance imaging (fMRI) and psychophysics to quantitatively compare these physiologi

160 al magnetic resonance imaging with olfactory psychophysics to show that initially indistinguishable o

161 We also used psychophysics to show that training reduced interocular

162 a combination of fMRI, MR spectroscopy, and psychophysics to substantiate the link between the corti

163 , and psychologists, aiming to relate visual psychophysics to the underlying physiology of the primat

164 onal magnetic resonance imaging (fMRI), plus psychophysics, to show that stimulation of the right hum

165 s translation, and, in accordance with human psychophysics, tuning was better (more prevalent, strong

166 With simulations and psychophysics, we demonstrate that walking Drosophila ex

167 of V1 neurons, and similar stimuli in human psychophysics, we find that near-surround suppression is

168 ecording in SI barrel cortex with controlled psychophysics, we found a unique FS subtype that was not

169 Within auditory psychophysics, we have singled out some topics of curren

170 Inspired by the theory of psychophysics, we propose the Just-Noticeable Difference

171 Borrowing a method from psychophysics, we recorded responses to white noise stim

172 Through simulated psychophysics, we reproduce the defensive startle reflex

173 Returning to human psychophysics, we then confirmed specific predictions of

174 Diffusion tensor tractography and psychophysics were assessed in tone-deaf individuals and

175 Kinetics of rod bleaching adaptation by psychophysics were dramatically slowed in the homozygote

176 Here, we combined one-trial-per-participant psychophysics with computational modelling and neuroimag

177 Combining psychophysics with computational modelling, we show that

178 Here, we combined psychophysics with fMRI to detect the neural processes u

179 Here, we combined psychophysics with functional magnetic resonance imaging

180 Here we combine psychophysics with functional magnetic resonance imaging

181 Here, by combining psychophysics with histology, we show that this establis

182 The present study combines human and rat psychophysics with sensory cortical neuronal firing to c

183 l MRI population receptive field mapping and psychophysics with stimuli that selectively measure cone

184 asures would include chromatic light-adapted psychophysics, with attention to the photoreceptor basis