ライフサイエンスコーパス: stereoscopic

1 Stereoscopic 200 degrees UWF images and stereoscopic 35m

2 dit the results of automated algorithms in a stereoscopic 3-D window while simultaneously viewing the

3 Stereoscopic 200 degrees UWF images and stereoscopic 35mm 30 degrees 7-field color photographs w

4 ied individual IT neurons in monkeys viewing stereoscopic 3D images projected on a large screen.

5 Stereoscopic 3D reconstruction of eroded samples was use

6 We found that playing stereoscopic 3D video games boosts the precision, but no

7 eo games, played first-person-shooter action stereoscopic 3D video games for a total of 40 h.

8 The initial step in stereoscopic 3D vision is generally thought to be a corr

9 eality (VR) enables protein visualization in stereoscopic 3D, but many VR molecular-visualization pro

10 s crucial for studies to measure participant stereoscopic ability, control for system crosstalk, and

11 We demonstrate that dressmakers' stereoscopic acuities are better than those of non-dress

12 sion, in judgments of surface slant based on stereoscopic and texture information.

13 Facile supervision based on the stereoscopic angiogram permitted arbitrarily close conco

14 ra-observer agreement between monoscopic and stereoscopic assessments of glaucoma likelihood (kappaw

15 anned monoscopic binocular microscope with a stereoscopic binocular one, an essential modification of

16 ed based on optical coherence tomography and stereoscopic biomicroscopy review.

17 al system combines optical sectioning with a stereoscopic camera setup to determine the true spatial

18 Stereoscopic cameras, such as those in mobile phones and

19 together parts of an object with the help of stereoscopic clues.

20 nd severity were defined based on grading of stereoscopic color fundus photographs according to the W

21 Baseline stereoscopic color fundus photographs and FAs of partici

22 , signs of ARM were ascertained from grading stereoscopic color fundus photographs based on a standar

23 Stereoscopic color fundus photographs centered on the ma

24 Stereoscopic color fundus photographs from eyes with PCC

25 f any ARM were assessed by masked grading of stereoscopic color fundus photographs in 1,709 persons w

26 inopathy was determined by masked grading of stereoscopic color fundus photographs using the modified

27 lated maculopathy were determined by grading stereoscopic color fundus photographs using the Wisconsi

28 maculopathy status was determined by grading stereoscopic color fundus photographs using the Wisconsi

29 lopathy were determined by masked grading of stereoscopic color fundus photographs using the Wisconsi

30 Baseline and annual stereoscopic color fundus photographs were evaluated for

31 pathy level (determined by masked grading of stereoscopic color fundus photographs), and NEI-VFQ-25 s

32 , and inner and outer temporal by grading of stereoscopic color fundus photographs.

33 ARM status was determined by grading stereoscopic color fundus photographs.

34 AMD were determined by systematic grading of stereoscopic color fundus photographs.

35 VA testing, ophthalmoscopic examination, and stereoscopic color fundus photography at baseline and an

36 Stereoscopic color imaging of the ONH combined with a me

37 Stereoscopic color optic nerve photographs of the same e

38 Annual stereoscopic color photographs and FAs were reviewed fro

39 In the BMES, AMD lesions were graded from stereoscopic color photographs and were classified accor

40 s graders ascertained AMD status from annual stereoscopic color photographs by using standardized met

41 ntrast sensitivity (CS), Raman spectroscopy, stereoscopic colour fundus photography, and serum sampli

42 r variations of digital images (uncompressed stereoscopic, compressed stereoscopic, uncompressed mono

43 s of research into the parallel evolution of stereoscopic computations and possible new algorithms fo

44 g of SDS-washed freeze-fracture replicas and stereoscopic confirmation of tissue binding.

45 ch field, while there is limited research on stereoscopic content deblurring.

46 n the two retinal images (i.e., solving the "stereoscopic correspondence problem") so that the depth

47 participants: some were proficient at using stereoscopic cues and others performed near chance.

48 Here we demonstrate that binocular non-stereoscopic cues can also be used to pass the Randot, b

49 with amblyopia had more difficulty using non-stereoscopic cues than neurotypical observers.

50 hese findings reveal that mice naturally use stereoscopic cues to guide their behavior and indicate a

51 Good behavioral performance with stereoscopic cues was accompanied by better decoding per

52 t and discovered considerable amounts of non-stereoscopic cues, including binocular cues in the Circl

53 atest decoding accuracy with perspective and stereoscopic cues, respectively.

54 motion stimuli containing perspective and/or stereoscopic cues, we investigated the hierarchy within

55 We found that presenting the items in stereoscopic depth alone hardly affected VWM performance

56 Motion and stereoscopic depth are fundamental parameters of the str

57 The analysis of object motion and stereoscopic depth are important tasks that are begun at

58 at behaviourally relevant signals concerning stereoscopic depth are present in MT.

59 ses fine detail, wavelength information, and stereoscopic depth cues; the parasol channel plays a cen

60 Fine stereoscopic depth discriminations depend critically on

61 ric functions were measured for detection of stereoscopic depth in a random-texture display.

62 matching computation involved in extracting stereoscopic depth in random-dot stereograms.

63 not particularly specialized for processing stereoscopic depth information compared to other early v

64 In order to examine whether stereoscopic depth information could drive fast automati

65 ce the responses and can enhance or null the stereoscopic depth information.

66 This selectivity is achieved by means of a stereoscopic depth mechanism which uses the fact that th

67 mbination, prior to the generation of a full stereoscopic depth percept.

68 ular disparity form the neural substrate for stereoscopic depth perception and are found in several a

69 This limit on stereoscopic depth perception appears to be intrinsic to

70 a suggest that MT plays an important role in stereoscopic depth perception in addition to its well kn

71 The process of stereoscopic depth perception is thought to begin with t

72 n the depth of objects in the scene and make stereoscopic depth perception possible.

73 Stereoscopic depth perception relies on binocular dispar

74 As early as the 1830s, stereoscopic depth perception was shown to depend on hor

75 id, coarse percepts are refined over time in stereoscopic depth perception.

76 to binocular disparity, the raw material of stereoscopic depth perception.

77 s does not guarantee that they contribute to stereoscopic depth perception.

78 sual areas V3 and V3A may be specialized for stereoscopic depth processing based on relative disparit

79 Fine judgments of stereoscopic depth rely mainly on relative judgments of

80 rection of hand movements could be driven by stereoscopic depth to occur in as early as 190 ms.

81 Mice, too, can perceive stereoscopic depth, and neurons in primary visual cortex

82 ition to its established roles in processing stereoscopic depth, area MT is well suited to contribute

83 uses this 'binocular disparity' to interpret stereoscopic depth.

84 defined shape and a similar shape defined by stereoscopic depth.

85 tly to our conscious perception of binocular stereoscopic depth.

86 cating that they do not unambiguously signal stereoscopic depth.

87 mns could be uniquely important in computing stereoscopic depth.

88 a sufficient substrate for the perception of stereoscopic depth.

89 were asked to point to a target at different stereoscopic depths as quickly and accurately as possibl

90 thesis that breastfeeding benefits long-term stereoscopic development.

91 ver, most previous studies tested only small stereoscopic differences in depth in which disparity, de

92 Stereoscopic digital formats are equivalent to monoscopi

93 rential hyperacuity perimetry (PHP) testing, stereoscopic digital fundus photographs with FA, and OCT

94 the system for grading lens opacities using stereoscopic digital fundus reflex photographs in the Ag

95 Stereoscopic disc photographs of subjects with and witho

96 A total of 9395 stereoscopic disc photographs were reviewed.

97 Visual fields, stereoscopic disc photographs, and details of the ophtha

98 Refractive errors (82.5%), stereoscopic disorders (22.5%) and strabismus (12.6%) we

99 ity sensor": a binocular neuron sensitive to stereoscopic disparity and thus to distance from the ani

100 Most available studies show that stereoscopic disparity reduces crowding, indicating that

101 ly broad tuning to size and narrow tuning to stereoscopic disparity seen in mantis striking behaviour

102 in response to moving targets with different stereoscopic disparity, size and vertical disparity.

103 We therefore developed a stereoscopic display system for insects, using miniature

104 platform for future image augmentation, a 3D stereoscopic display was created.

105 ed over periods of 30 to 150 seconds using a stereoscopic display, presenting gratings of lines arran

106 prospective photonic applications, including stereoscopic displays, polarization encoding, chiral pol

107 f cancer was not significantly different for stereoscopic DM (68.4% [13 of 19]) compared with DM (63.

108 e recall rate was significantly reduced with stereoscopic DM compared with DM.

109 Patients underwent both DM and stereoscopic DM examinations in a single visit, findings

110 Compared with DM, stereoscopic DM showed significantly higher specificity

111 Compared with DM, stereoscopic DM significantly improved specificity for d

112 The recall rate for stereoscopic DM was 9.6% (125 of 1298) and that for DM w

113 They provide a 3D stereoscopic experience to many viewers at the same time

114 We show that this occurs because of a stereoscopic "false match" between the leading edge of t

115 nce imaging to compare processing for moving stereoscopic forms in macaque and human brains.

116 In addition, Stereoscopic, Fourier-transform infrared (FTIR) spectros

117 applanation tonometry, gonioscopy, biometry, stereoscopic fundus examination, and automated perimetry

118 Twenty-nine pairs of stereoscopic fundus photographs and optic nerve head (ON

119 Stereoscopic fundus photographs demonstrated a yellow-or

120 Digital color stereoscopic fundus photographs from 4203 AREDS2 subject

121 trophy or neovascular AMD detected on annual stereoscopic fundus photographs or as documented by medi

122 e and severity were assessed from grading of stereoscopic fundus photographs taken in 2001-2004.

123 VA) assessments, slit-lamp examinations, and stereoscopic fundus photographs that were centrally grad

124 Baseline and annual stereoscopic fundus photographs were assessed centrally

125 Baseline and annual stereoscopic fundus photographs were graded centrally to

126 Based on stereoscopic fundus photographs, we evaluated diabetic m

127 gradings of baseline color non- simultaneous stereoscopic fundus photographs.

128 arly or late AMD was determined from graded, stereoscopic fundus photographs.

129 firm the presence of CSME by the following 2 stereoscopic fundus photography (method 1) and dilated b

130 Fundoscopy was less sensitive than 7-field stereoscopic fundus photography in detecting retinopathy

131 liferative DR, and macular edema, as well as stereoscopic fundus photography of 7 standard Early Trea

132 raocular pressure, visual field testing, and stereoscopic fundus photography were performed at both b

133 Complete ophthalmic examinations included stereoscopic fundus photography.

134 ding subjective and objective refraction and stereoscopic fundus photography.

135 kness measurement, visual field testing, and stereoscopic fundus photography.

136 Stereoscopic fundus reflex photographs were acquired in

137 rceptual learning (thousands of trials) with stereoscopic gratings, five adults who initially were st

138 tion of static and dynamic visual stimuli on stereoscopic head-mounted goggles.

139 A custom stereoscopic heads-up display provides real-time interac

140 We combined stereoscopic high-speed X-ray videos to quantify skeleta

141 designed N, S co-doped graphitic sheets with stereoscopic holes (SHG) act as effective tri-functional

142 each eye, and tested our ability to deliver stereoscopic illusions to praying mantises.

143 de-angle mosaics) were compared with digital stereoscopic images (uncompressed and compressed seven-f

144 Neurons encode the depth in stereoscopic images by combining the signals from the re

145 rture sensing with the human ability to fuse stereoscopic images.

146 spectives, our method also enables real-time stereoscopic imaging and three-dimensional particle loca

147 Here, we present a novel marker-based 3D stereoscopic imaging technique to reconstruct 3D motion

148 Stereoscopic imaging technology can be adopted to enhanc

149 of computation, one that exploits binocular stereoscopic information for the definition of local dep

150 disparity tuning was wide enough to capture stereoscopic information over a range of potential verge

151 Use of a 3D cursor allowed stereoscopic interactive probing of specific voxels to q

152 Progression of lens opacities on stereoscopic lens photographs at 2 years, cataract surge

153 video was presented, whereas computational (stereoscopic matching) methods were unsuccessful, human

154 MS) roughness value (26.922 and 34.033) with stereoscopic morphologies.

155 ith recent advances enabling computer-guided stereoscopic needle biopsy of calcified foci, histopatho

156 oviding binocular shape information), or (3) stereoscopic only.

157 was estimated by an automated algorithm from stereoscopic optic disc color photographs of a random sa

158 ) Bruch membrane opening (BMO) algorithm and stereoscopic optic disc photograph readings by glaucoma

159 European ophthalmologists correctly matched stereoscopic optic disc photographs to their correspondi

160 y of ophthalmologists for correctly matching stereoscopic optic disc photographs to their visual fiel

161 (VF) tests were performed every 6 months and stereoscopic optic disc photographs were taken every 12

162 Stereoscopic optic disc photographs, acquired for each i

163 pathy (GON) determined by masked review with stereoscopic optic disc photographs.

164 ent Study (OHTS) participants annually using stereoscopic optic disc photographs.

165 All eyes had stereoscopic optic disc photography and in vivo LC imagi

166 utomated perimetry (SAP), Cirrus SD-OCT, and stereoscopic optic disc photography within 6 months.

167 ocular pressure, visual field perimetry, and stereoscopic optic disc photography.

168 onioscopy, standard automated perimetry, and stereoscopic optic disc photography.

169 traocular pressure, Humphrey 24-2 perimetry, stereoscopic optic nerve head (ONH) and retinal nerve fi

170 ma was based on masked assessment of digital stereoscopic optic nerve head images by three glaucoma s

171 d as greater than 0.6 in either eye based on stereoscopic optic nerve photographs.

172 Stereoscopic optic nerve photos were taken at baseline a

173 But how these signals are used for stereoscopic perception remains a puzzle.

174 strate stereopsis on clinical tests can have stereoscopic perception that commonly used clinical test

175 that adds to the list of properties of human stereoscopic performance that are explained by this simp

176 A connection with an observer's stereoscopic performance was made by the discovery that

177 A novel set of stereoscopic phenomena are reported that demonstrate the

178 disc appearance (n = 51) was based on masked stereoscopic photograph evaluation.

179 -0.67) was substantial and not lower than in stereoscopic photographs (kappaw = 0.59, CI = 0.54-0.65)

180 Participants also underwent stereoscopic photographs and Humphrey visual fields, whi

181 and 79 glaucoma suspect) of 99 patients with stereoscopic photographs and OCT scans of the optic disc

182 CDR was determined from stereoscopic photographs by two or more masked graders.

183 vels of inter-observer agreement compared to stereoscopic photographs in the assessment of any optic

184 Twenty pairs of high-quality monoscopic and stereoscopic photographs of similar size and magnificati

185 Stereoscopic photographs of the optic discs were taken o

186 ied military operations; analysts pored over stereoscopic photographs, becoming expert at (1) segment

187 Optic discs and cups were measured from stereoscopic photographs, whereas retinal vessel measure

188 on by clinical examination of the fundus and stereoscopic photographs.

189 esent a significant disadvantage compared to stereoscopic photographs.

190 ategories at baseline, based on VFs and disk stereoscopic photographs; a subset of eyes had stereopho

191 With the help of the stereoscopic picture of the fundus provided by the endos

192 ion must be further analysed to complete the stereoscopic process.

193 order to examine the global architecture of stereoscopic processing in primate visual cortex, we stu

194 ge number of areas in macaque visual cortex, stereoscopic processing in these areas has never been sy

195 multiple cortical areas are associated with stereoscopic processing, it is unclear how tuning to spe

196 e visual enhancement was specific to genuine stereoscopic processing, not indirectly resulting from e

197 e following: (1) haptic only, (2) haptic and stereoscopic (providing binocular shape information), or

198 imple stratagems for solving the problems of stereoscopic range finding.

199 led binocular disparities, provide us with a stereoscopic sense of depth.

200 ent a simple model which can account for the stereoscopic sensitivity of praying mantis predatory str

201 control group will only receive the VR-based stereoscopic serious games.

202 arify whether visual reaction time (RT) in a stereoscopic setting can be a marker in PCS diagnostics.

203 Optic nerve damage was assessed by stereoscopic slit-lamp biomicroscopy and fundus photogra

204 of each individual, using a cursor moving in stereoscopic space to minimize parallax errors.

205 For example, when presented with a class of stereoscopic stimuli containing inconsistent information

206 ng binocular vision in 9 gaze directions via stereoscopic stimuli displayed in a virtual reality (VR)

207 between neural and hemodynamic responses to stereoscopic stimuli recorded over visual cortex.

208 iment that eliminated 3D motion percepts for stereoscopic stimuli, but not perspective stimuli, revea

209 delayed matching-to-sample (DMTS) task using stereoscopic stimuli.

210 d SS 433 in gamma rays using the High Energy Stereoscopic System (H.E.S.S.) and found an energy-depen

211 urs after the trigger, using the High Energy Stereoscopic System (H.E.S.S.).

212 021 outburst, observed using the High Energy Stereoscopic System (H.E.S.S.).

213 the Fermi large-area telescope, high-energy stereoscopic system, major atmospheric gamma-ray imaging

214 poral resolution and display high-resolution stereoscopic three-dimensional graphics.

215 Multiplanar, volume-rendered, and stereoscopic three-dimensional velocity-fusion visualiza

216 To screen patients, we used non-stereoscopic three-field mydriatic photography and modif

217 sparity was operationally defined as optimal stereoscopic threshold with a nonzero retinal disparity

218 Further, the MCAM architecture allows stereoscopic tracking of the z-position of organisms usi

219 mages (uncompressed stereoscopic, compressed stereoscopic, uncompressed monoscopic, and uncompressed

220 henoid was reconstructed from intraoperative stereoscopic video and coregistered to a volumetric preo

221 f the sphenoid sinus were reconstructed from stereoscopic video and coregistered to corresponding vol

222 The same was true with stereoscopic video because of the occlusions caused by f

223 w-water tunnel with controlled velocity, and stereoscopic video recordings are used to track the 3D p

224 ed to reduce occlusions and disparity-scaled stereoscopic video was presented, whereas computational

225 ection and surface model reconstruction from stereoscopic video with registration to volumetric model

226 his inhibition comes about is suggested in a stereoscopic view of the ligand when modeled to the know

227 This novel 3D stereoscopic viewer allows surgical performance in TES e

228 ated TES task using 4 visual displays (novel stereoscopic viewer and currently utilized stereoendosco

229 was quicker to perform than using a handheld stereoscopic viewer.

230 daries by a skilled reader based on standard stereoscopic viewing of the fluorescein angiography stud

231 The 3D stereoscopic viewing of the scenes affected the response

232 and analyzed using a digital, quad-buffered, stereoscopic viewing system in which a Z screen was used

233 Stereoscopic virtual environments provide a true three-d

234 Second, we show that stereoscopic vision is not limited to the registration a

235 Stereoscopic vision plays a critical role in visual perc

236 Although stereoscopic vision requires specialized neural mechanis

237 gh mice share fundamental characteristics of stereoscopic vision with primates and carnivores, their

238 ll, which indicates the early development of stereoscopic vision, and an unusual monocerotic face for

239 likely to achieve high-grade stereopsis, or stereoscopic vision, than were children who had not been

240 convergent orbits, which are associated with stereoscopic vision.

241 wn about if and how rodents such as mice use stereoscopic vision.

242 atching problem is one of the main issues in stereoscopic vision.

243 played by the primary visual cortex (V1) in stereoscopic vision.

244 images, which form the neural substrate for stereoscopic vision.

245 we show that visual area MT is important in stereoscopic vision: electrical stimulation of clusters

246 t the hypothesis that breastfeeding benefits stereoscopic visual maturation and, second, if that bene