ライフサイエンスコーパス: motion

1 models) and complex anatomy (e.g., patellar motion).

2 espond selectively according to direction of motion.

3 ecent studies suggest they may signal global motion.

4 nal, and energetic correlations with Lithium motion.

5 sychophysical and physiological responses to motion.

6 ons associated with the visual processing of motion.

7 ity without restricting the dynamic range of motion.

8 cision between multiple directions of visual motion.

9 on to stimulus features such as color versus motion.

10 visual field are more responsive to coherent motion.

11 reak symmetry and evolve directional spindle motion.

12 of 115 active neurons (47%) represented self-motion.

13 s of their intrinsically accessible modes of motion.

14 roaches are compromised by spontaneous fetal motion.

15 nters can still occur randomly due to animal motion.

16 the human body itself such as body heat and motion.

17 yses and were not associated with IQ or head motion.

18 ision at the apical surface drives basalward motion.

19 finger movements across the entire range of motion.

20 ctuating, unbiased force into unidirectional motion.

21 y angle obtained from classical equations of motion.

22 dict and eliminate the PHT component of hand motion.

23 s may cause deviations from a normal walking motion.

24 inspired robots with unprecedented speeds of motion.

25 ia with specific functions in detecting head motions.

26 ystal structures with biochemically relevant motions.

27 nteractions that allow and limit active-site motions.

28 roblems in two dimensional space or straight motions.

29 movements on top of the primary task-related motions.

30 gle-limb or combined upper and/or lower limb motions.

31 ected while minimizing artifacts (e.g., head motion), 2) quantitative and unbiased methods for featur

32 s of strength (56% of patients) and range of motion (38% of patients).

33 4), and with clumps exhibiting non-Keplerian motion(5-7).

34 The final model recognized regional wall motion abnormalities in the cross-validation and externa

35 ormance in A1 compared with A2 and less wall motion abnormalities in the jeopardized myocardium versu

36 to automate the recognition of regional wall motion abnormalities using temporal and spatial informat

37 malities that included left ventricular wall motion abnormalities, global left ventricular dysfunctio

38 d strategy in preventing subclinical leaflet-motion abnormalities.

39 ecognition of left ventricular regional wall motion abnormalities.

40 enced or provide a universal metric for self-motion across environments remains unknown.

41 is needed to establish what causes these rib motions, active contraction of the hypaxial musculature

42 motions but minimal resistance against slow motions, allowing for the integration of diverse motor a

43 orm a detailed analysis of the transverse DW motion along nanowires with polygonal cross-sections.

44 'hydrodynamic treadmill' with no bounds for motion along the axis of gravity.

45 This motion also can explain how 5'-dAdo. subsequently forms

46 used by microbubbles oscillating in a stable motion, also known as stable cavitation.

47 o human adult Ultrasound data from a Cardiac Motion Analysis Challenge (CMAC), the proposed method is

48 rals breath-hold UTE was more susceptible to motion and aliasing artifacts.

49 Our observations of dislocation motion and atomistic calculations unveil the unexpected

50 We examined crowding for motion and color, two features that allow a strong test

51 he combined effect of laminar flow, Brownian motion and electrophoretic drift, it is shown that the o

52 nt flow imposes physical constrains on their motion and impairs their olfactory orientation.

53 average Dice coefficient between estimation motion and manual segmentation at 0.82-0.87.

54 displacement clamping to control hair bundle motion and measure forces.

55 associated with hypokinetic myocardial wall motion and microvascular obstruction, demonstrating pote

56 rafraction adaptive RT of tumors affected by motion and MRI-derived biomarkers to monitor treatment r

57 Lastly, we predicted a squat-to-stand motion and optimized the stiffness of an assistive devic

58 etrology, ground state cooling of mechanical motion and slowing of light.

59 tly weakened the relationship between pelvis motion and step width.

60 timescales with dynamics beyond hot Brownian motion and superheated water states persisting up to 100

61 ts, fueling the dream of mimicking life-like motion and tasks in untethered, man-made devices.

62 efficiently estimate rigid-body respiratory motion and the computed transformations are applied to t

63 o quantify their HMP from a two-legged squat motion and the deviation from the HMP when running in di

64 p the spatial transition between domain wall motion and the dynamics of a uniform magnetic domain tha

65 motion into two components: one due to self-motion and the other due to independently moving objects

66 te responses to electrosensory and/or visual motion and, in particular, to looming/receding stimuli.

67 s, we show how detailed properties of atomic motions and energy redistribution can be unveiled.

68 PSS and the correlations between fluorophore motions and large-scale conformational changes between L

69 elation between the number of linear folding motions and the number of rigid body modes that depends

70 diate conformational states, time scales for motion, and associated energies.

71 ss and consistency, cyclic nature of cardiac motion, and better adherence to the stroke volume of the

72 t domains stochastically probe transmembrane motion, and reversible unsuccessful excursions to the in

73 litate recording physiological signals, body motions, and analysis of body fluids, (ii) smart gloves

74 shown that the direction and speed of target motion are among the most important encoded stimulus pro

75 and the functional aspects of these protein motions are essential to understanding the interplay bet

76 reveal that this preference for approaching motion arises in the interplay between presynaptic excit

77 ot be captured via functional imaging due to motion artefacts and limited temporal resolution, and el

78 Correction of axial motion artefacts usually requires volumetric imaging res

79 OLD, suboptimal behavioural performance, and motion artefacts, in combination, render rER BOLD fMRI c

80 as considered optimal in 60% and suboptimal (motion artifacts in one or two sequences) in 30%.

81 ilation-perfusion scanning (VQ) or increased motion artifacts on CT pulmonary angiography (CTPA).

82 ers that can reduce subject mobility, induce motion artifacts, and limit experimental paradigms to is

83 shows drawn-on-skin electronics' immunity to motion artifacts.

84 lved hard-wired neural mechanisms to extract motion as a primitive feature of the visual world [1].

85 merous proposals have invoked positioning or motions as central for enzyme function, but a scarcity o

86 nisms(2), differs considerably from Brownian motion, as revealed by a greatly enhanced diffusion coef

87 ecular movement is typically limited because motion at the atomic scale follows stochastic processes.

88 ith its large area of ~1 km(2) and perennial motions at ~10-20 mm per day, the Slumgullion landslide

89 The quantum coherence of the Coulomb coupled motion between the atomic and molecular ions enables sub

90 important because the underlying "breathing" motion between the two conformations can significantly m

91 variability did not whiten naturalistic self-motion but instead faithfully represented the stimulus'

92 s not merely driven by perceived eye or head motions but is rather well tuned to extract the "mind" b

93 ons of DHX15 that restricts excessive domain motions but maintains sufficient flexibility for catalys

94 roducing significant resistance against fast motions but minimal resistance against slow motions, all

95 people can recognize the intent and onset of motion by inferring its early warning signals.

96 Myosins generate force and motion by precisely coordinating their mechanical and ch

97 rkable example of living organisms for which motion can be easily controlled remotely.

98 e gating of AAA1 by AAA3 prevails and dynein motion can occur.

99 a behavioral monitoring system that combines motion capture and deep learning to continuously track t

100 nkeyStudio, a deep learning-based markerless motion capture system for estimating 3D pose in freely m

101 this primer, we review the budding field of motion capture with deep learning.

102 bles capable of external measurements (e.g., motion capture, heart rate, skin conductance, respiratio

103 oint arm and head movements using markerless motion capture.

104 However, continuous-bed-motion (CBM) scans require dedicated DDG approaches for

105 A trend towards superior motion coherence thresholds in the peripheral visual fie

106 9 however, we observe an acceleration in ice motion coincident with atmospheric cooling and a ~15% re

107 Conclusion: A fully automated data-driven motion-compensation approach was established and tested

108 odels use governing equations of the flow in motion (conservation of mass and momentum principles) to

109 We develop a method to learn a bio-inspired motion control policy using data collected from hawkmoth

110 The clutter-filtered Doppler ensemble was motion corrected prior to slow-time power Doppler integr

111 cGAN-aided motion correction enables the translation of noninvasive

112 The proposed Dixon motion correction technique was compared to the state-of

113 While motion correction techniques have been proposed, they ha

114 The pipeline also includes motion correction using the MRI navigator sequence as we

115 retina extracts a diversity of naturalistic motion cues, and the retinorecipient pretectum organizes

116 plement methods to achieve high-quality, low-motion data while not sacrificing data quantity.

117 Head motion degrades image quality and causes erroneous param

118 We probe how these motions depend on voltage and frequency of oscillating f

119 creased stimulus sensitivity in the vibrissa motion detection task.

120 this illusion arises from architectures for motion detection that are shared across phyla.

121 ovel insecticide sulfoxaflor (SFX) on visual motion-detection circuits and related escape behavior in

122 he percept was abolished when the elementary motion detector neurons T4 and T5 were silenced.

123 For any given spatial pattern, motion detectors in both taxa are tuned to speed, select

124 improving velocity estimation in downstream motion detectors.

125 the visual cortex of rhesus monkeys during a motion direction change detection task.

126 , and can be well controlled by a selectable motion direction of receiver substrates at a high speed.

127 oach this problem by adapting the random-dot motion discrimination paradigm, classically used in prim

128 macular integrity assessment perimetry, OCT, motion discrimination performance, and visual quality-of

129 In a motion discrimination task, we demonstrate that changes-

130 bserved in autism, including superior visual motion discrimination, but the neural basis for these se

131 strand-to-alpha-helix transitions and domain motions displayed by the essential mannosyltransferase P

132 Our results suggest that fluid motion due to outer hair cell motility can help maintain

133 assess the velocity of diaphragmatic muscle motion during contraction and relaxation.Methods: In 20

134 gent concentration. Furthermore, respiratory motion during data acquisition precludes quantification

135 capture findings on the perception of object motion during self-motion.SIGNIFICANCE STATEMENT The ima

136 unctionally map the determinants of S4 helix motion during voltage-dependent transition from the inte

137 [Formula: see text], large-scale collective motion emerges in the quiescent state, and the flow beco

138 t it is dynamic, with persistent interdomain motions enabling the linker and N3 domains in the recept

139 Since motion estimation algorithms are complex, dividing up re

140 studies are presented, including data-driven motion estimation and correction for brain studies, abdo

141 Satisfactory cardiac motion estimation is also demonstrated on other data set

142 Here, we describe a new method for 3D motion estimation that addresses the aforementioned issu

143 stration is thus a viable option for cardiac motion estimation that can still have good accuracy.

144 ent a novel regularisation layer for cardiac motion estimation that will be applied after image regis

145 pton, where accounts suggest vertical ground motions exceeding 1 g.

146 Although motion extrapolation had been proposed a decade earlier

147 ntive system), it is possible to achieve low-motion fMRI data in pediatric participants (age range: 7

148 manifests itself as irreversible dislocation motion followed by crack initiation and propagation.

149 D exhibits two conformations, suggesting the motion for cholesterol delivery to the tunnel.

150 that is designed to isolate secular tectonic motions from the daily GNSS time series to show that the

151 The ability to exhibit life-like oscillatory motion fueled by light represents a new capability for s

152 oppler spread caused by the inhomogeneities' motion further reduces acoustic temporal coherence, and

153 that AAA4 controls the priming stroke of the motion-generating linker, which connects the dimerizing

154 gs, this finding emphasizes the role of cell motion, guided by cell-cell interactions during differen

155 physiological studies of responses to visual motion have converged on a consistent set of general pri

156 acks were affected by noticeable inter-slice motion (i.e. average inter-slice misalignment greater th

157 speed-contrast association that accounts for motion illusions, rather than the distribution of moveme

158 the fidelity of encoding and decoding global motion in a natural scene across large populations of oo

159 Local motion in a visual scene allows the detection of prey or

160 hese effects are central to control particle motion in DC-iEK devices.

161 retina and the visual cortex process object motion in largely unbiased fashion: all directions are r

162 etal filaments and molecular motors generate motion in living cells, and have internal structures ran

163 data reveal that the CNTPs undergo diffusive motion in the bilayer plane.

164 are complemented by modeling of the droplet motion in the channel flow using computational fluid dyn

165 imation of speed is critical for determining motion in the environment, but humans cannot perform thi

166 that flies, like humans, perceive sustained motion in the stationary gradients.

167 losing crystallinity, undergo prompt bending motions in response to stimuli, and self-heal efficientl

168 uplings suggest structural changes and rapid motions in the region responsible for dimerization.

169 ive sites that undergo fast, large-amplitude motions, including the phytol tails of two chlorophylls.

170 on of the system shows the speed of particle motion increases with optical power absorption and is al

171 icient to drive continuous monopolar spindle motion independently of adhesive cues in flattened human

172 iples that characterize visual processing of motion information.

173 ally acquired the ability to perform similar motion integration without making eye movements.

174 sual system is capable of parsing the global motion into two components: one due to self-motion and t

175 Host-guest complex solid state molecular motion is a critical but underexplored phenomenon.

176 The governing equation of motion is derived from Hamilton's principle.

177 Perception of visual motion is important for a range of ethological behaviors

178 We also observe that motion is low during the MRI protocol in a separate repl

179 solvent slaving" model predicts that protein motion is strongly coupled to various aspects of water s

180 Moreover, our data show that the DSB motion is subdiffusive and ATP-dependent and exhibits un

181 layer-to-layer confinement, their segmental motion is very restricted, which affects their sorption/

182 nal studies in which respiratory and cardiac motion is visible, and a whole-body survey.

183 Brownian motion is widely used as a model of diffusion in equilib

184 ven these several uses of visually perceived motion, it is unsurprising that many species have evolve

185 Intravoxel incoherent motion (IVIM) parameters were calculated from resulting

186 The photo-induced motion mimics the oscillatory behavior of biological fla

187 ion perception optimally encode natural self-motion (Mitchell et al., 2018).

188 We analyze the variance of the motion near the point of transition and find that it div

189 ess, on the order of seconds, whereas domain motions occur simultaneously but are substantially faste

190 opological objects representing the circular motion of a fluid.

191 ous, time-delayed feedback control using the motion of an optically levitated, underdamped microparti

192 nical leaflet thickening and reduced leaflet motion of bioprosthetic aortic valves have been document

193 Analysis of the two-dimensional motion of cells between two rectangles with orthogonal o

194 For gas giant planets such as Jupiter, the motion of clouds can be compared with radio emissions fr

195 t arterial pulsations only drive oscillatory motion of CSF in the PVS.

196 ochastic switching due to the random kinetic motion of discrete defects in the nanometer-sized filame

197 ving bars, whereas LC12 is selective for the motion of discrete objects, mostly independent of size.

198 he exchange processes reflect the rotational motion of histidine imidazole rings that coordinate the

199 parameter regime relevant to the hitchhiking motion of peroxisome organelles in fungal hyphae.

200 of its ability to orchestrate well-organized motion of self-propelled particles over large distances.

201 s predominantly governed by the conservative motion of Shockley partial dislocation pairs, which fund

202 The directed motion of species against a chemical potential gradient

203 nomer entropy associated with the scissoring motion of the [3.3]paracyclophane bridge.

204 are integral to this locomotor mode, but 3D motion of the axial skeleton has not been reported for l

205 d, quantitative rotational and translational motion of the cargo in a 3D cell cytoskeleton was obtain

206 We find that motion of the clouds can be described well based on the

207 ning behavior in the coherence of autonomous motion of the coupled system.

208 This study examined how constraining the motion of the foot joints with rigid soles influenced ba

209 rential strain were then calculated from the motion of the landmarks and averaged on a slice basis.

210 retical model for the molecular-motor-driven motion of the MT cytoskeleton confined between plasma me

211 ing, step width is predicted by mediolateral motion of the pelvis, a relationship that can be attribu

212 cs tools to find attractors, which bound the motion of the spacecraft.

213 enabling us to track the non-steady surface motion of the subducting and overriding plates before, d

214 Here, we reveal key steps for the pro-motion of this reaction by water when tuning the selecti

215 and falls in phase with the forward and back motion of whiskers during surface exploration.

216 mic interactions play a role in synchronized motions of coupled oscillators in fluids, and understand

217 The internal motions of integral membrane proteins have largely elude

218 ogen-bonding interactions and conformational motions of interfacial residues along the PCET pathway.

219 Unfortunately, compared to mimicking motions of natural creatures, fabricating mechanochromic

220 Using a mapping from the linear folding motions of such sheets to force-bearing modes in conjunc

221 molecules drives low-frequency, phonon-type motions of the cage.

222 elerations of around 10(-3) m s(-2) to large motions of the entire body at about 10 m s(-2), and at f

223 s attributed to a reduction in the essential motions of the folded state that are required for cataly

224 The motions of the terminal subunit make the partially flatt

225 Here, we use XROMM to quantify the relative motions of the vertebrae and ribs during slow treadmill

226 Motion on major thrusts within the orogen has resulted i

227 are not selective either to the direction of motion or to the orientation of stimuli and are not char

228 uch as foreground segmentation, perspective, motion parallax, and integration of multiple modalities

229 a method for predicting clinically relevant motion parameters from an ordinary video of a patient.

230 that humans tend to maintain their habitual motion path (HMP) during locomotion.

231 The habitual motion path theory predicts that humans tend to maintain

232 l known hierarchical structure of the visual motion pathway to demonstrate dissociation in the fMRI r

233 rnivores and primates.SIGNIFICANCE STATEMENT Motion perception is vital for navigation, communication

234 mediating vestibulo-spinal reflexes and self-motion perception optimally encode natural self-motion (

235 Here we seek insight into motion perception using a neural network (MotionNet) tra

236 havior in its excited state, while molecular motion, predicted for several derivatives, could be of i

237 st biomechanists, including motion tracking, motion prediction, parameter optimization, model fitting

238 igin of the far-IR localized and delocalized motions present in peptides and where they can be found

239 cent evidence suggests a link between visual motion processing and social cognition.

240 significant impairment of pursuit and visual motion processing at 0.015% BAC, reflecting degraded neu

241 o be a putative marker for Y cells forming a motion processing stream, we suggest that peculiarities

242 re performed on DS neurons related to object motion processing.

243 motion that appeared slower than actual body motion reduced the initial in-place resistance to the pe

244 thway cells, it was accompanied by decreased motion responses in downstream direction-selective cells

245 hod of MRI velocity-encoding combined with a motion-robust reconstruction framework for four-dimensio

246 r, we develop PulseCam - a new camera-based, motion-robust, and highly sensitive blood perfusion imag

247 od perfusion estimate below 10% in different motion scenarios compared to 20-30% error when using cur

248 stly qualitative due to time constraints and motion sensitivity.

249 Motion Sequencing (MoSeq) is an ethologically inspired b

250 as Willem Kolff and Belding Scribner set in motion several dramatic changes in the epidemiology, eco

251 tions and strain profiles in various tactile motions (shear, pinch, spread, torsion, and so on).

252 lectrophysiological signal monitoring during motion shows drawn-on-skin electronics' immunity to moti

253 Visually induced motion sickness was probed using the Simulator Sickness

254 dorsal areas show specialization for visual motion signals.

255 system that represents visual cues and self-motion signals.

256 These motion signatures serve to predict the post-HAA selectiv

257 the perception of object motion during self-motion.SIGNIFICANCE STATEMENT The image integrated by ou

258 lignment that exhibit spontaneous correlated motions, similar to rafts in many bacterial communities.

259 Together, this provides an exposition of motion speed and direction estimation, and produces conc

260 results when using contrast to compete with motion speed.

261 We first demonstrate that structured motion stimuli benefit human multiple object tracking pe

262 flexibility and the amplitude of nucleosome motions such as breathing and twisting are enhanced in n

263 -body plethysmography were used to assess VF motion, swallow function, vocal function, and respirator

264 Visual motion that appeared slower than actual body motion redu

265 A), and methylammonium (MA) molecule tilting motion that leads to rather unique/anomalous bandgap var

266 review, we focus on the design of collective motions that are achieved by integrating, in space and t

267 a mutationally induced alteration in protein motions that becomes manifest along and perpendicular to

268 gnaling that dictates structural changes and motions that relieve SERCA inhibition by PLB.

269 velocity counterbalances electrokinetic (EK) motion, that is, electrophoresis (EP) and electro-osmoti

270 A coherent rotational motion, the vortex phase, is of great interest because o

271 limited our understanding of positioning and motion, their relative importance, and their changes thr

272 mals need information about the direction of motion to be able to track the trajectory of a target (p

273 tegies that have been reported for imparting motion to MOFs.

274 olymers, shape programmability and sustained motions to finally achieve bioinspired untethered soft r

275 blems that interest biomechanists, including motion tracking, motion prediction, parameter optimizati

276 Using motion tracking, we sought to elaborate this relationshi

277 e using wearables for naturalistic full-body motion-tracking and the sports of pool billiards to fram

278 ls of ER stress, the homeostatic UPR sets in motion transcriptional and translational changes that pr

279 ocessing pipelines able to deal with diverse motion types, and 3D visualization tools adapted to the

280 CT by allowing the accurate determination of motion vectors from the PET data itself.

281 the reference frame, yielding 3-dimensional motion vectors.

282 ormed to assess the pattern of diaphragmatic motion velocity, measure its normal values, and determin

283 erlying algorithms for feature detection and motion vision.

284 al circuits and computational algorithms for motion vision.

285 Correction for patient body motion was applied manually.

286 atural phenomenon called rotational Brownian motion was characterized by Janus particles and its pote

287 Out-of-plane motion was detected by estimating normalized ensemble cr

288 istribution functions during fast spacecraft motion, we also discuss the operation strategy for 3DI t

289 age 5, responses to first-person perspective motion were not yet detectable at this same age and rath

290 These correlated motions were absent or diminished in alpha7 homologs, su

291 Additional twist and pinch motions were observed in an open ORC conformation reveal

292 way to the systematic description of protein motions, whatever their degree of collectivity.

293 the direction of a moving object during self-motion, while monkeys switched, from trial to trial, bet

294 of the two cometesimals involved reciprocal motion with dextral strike-slip kinematics that bent the

295 ary-like channels, from a nonstationary slow motion with hops to a fast and smooth efficient one.

296 Our theory unifies the metabolic cost of motion with information theory.

297 During the last two decades, engineering motion with small-scale matter has received much attenti

298 lexible macromolecules that undergo internal motions with time scales spanning femtoseconds to millis

299 sulfide bonds, which restrict conformational motion within the N-domain, prevented FeEnt uptake, wher

300 MD simulations support rigid body subdomain motions within the FabD structure that may play a key ro