ライフサイエンスコーパス: numerical

1 as the lake warmed, the food web shifted in numerical abundance towards predators occupying middle t

2 ch that combines detailed simulations with a numerical adaptation of an analytical Gaussian cluster t

3 t tissue macrophages, are sessile, then this numerical advantage would be exploited by pathogens unle

4 mortality, but this risk is not explained by numerical age alone.

5 We further use the numerical algebraic geometry tools Bertini, Paramotopy,

6 We present scBatch, a numerical algorithm for batch-effect correction on bulk

7 systems, which involve either model-based or numerical analyses.

8 A numerical analysis revealed that the maximum active atte

9 fficiency as the evaluation criterion in our numerical analysis; since it is the most fundamental pro

10 Through numerical and analytical approaches, we were able to con

11 The questionnaire consisted of numerical and descriptive scales to describe the perceiv

12 Our results can inform numerical and experimental analogue models of dyke propa

13 Here, we combine numerical and experimental work and demonstrate how spon

14 ld, we trained teachers to assess children's numerical and spatial skills every 10 wk.

15 urally aberrant centrioles and why centriole numerical and structural defects coexist in tumors.

16 Analytical, numerical, and experimental studies are carried out to c

17 Combined theoretical, numerical, and experimental studies of ~20 different 3D

18 erimenters ask questions both conceptual and numerical, and so draw the communities together.

19 ves having a high-enough detection aperture (numerical aperture >n(2)) and be separated in the back f

20 les and their performance for designing high numerical aperture devices is not well quantified.

21 ent metasurface designs in implementing high numerical aperture devices.

22 experimentally demonstrate a metalens with a numerical aperture of 0.78 and a measured focusing effic

23 Owing to its high numerical aperture optics, this microscope achieves late

24 so-called 4Pi geometry doubles the available numerical aperture, and coupling this with interferometr

25 nstrated diffraction limited performance for numerical apertures of 0.27, 0.11, and 0.06, with averag

26 elements to enable even larger diameters and numerical apertures.

27 A numerical approach has been developed to invert subordin

28 We combine a new classical numerical approach in conjuncture with an ansatz for an

29 The numerical approach involves incompressible steady flow w

30 have generalized this result by developing a numerical approach to PSC that can be applied to any com

31 gned to culture, in determining this spatial numerical association (SNA).

32 Using the NAME (Numerical Atmospheric Modeling Environment) particle dis

33 dy excitation, combined with comparison with numerical calculations allows us to identify it as the p

34 a sums of two-loop Feynman diagrams, and the numerical calculations are challenging as they involve B

35 less electroreflectance studies coupled with numerical calculations are performed on in-situ SiN(x) c

36 Numerical calculations identify magnetic anisotropy as t

37 t methods: analysis of symmetry eigenvalues, numerical calculations of the nested Wannier bands and t

38 Conjointly, we present advanced numerical calculations showing that even a moderate rung

39 We have applied numerical calculations to evaluate and discuss 3DI's per

40 toemission experiments with state-of-the-art numerical calculations, an ultrafast ( 10 fs) relaxation

41 Notably, patient-individual differences of numerical cell distribution were detected.

42 gin behind key phenomena of human and animal numerical cognition.

43 latform that utilizes principles of computer numerical control (CNC) machining to perform a wide vari

44 thod with great potential is 5-axis computer numerical control (CNC) micromilling, commonly used in t

45 Pase FlhG (also YlxH/FleN) is central to the numerical control of bacterial flagella, and its deletio

46 The molecular mechanism underlying this numerical control, however, remains enigmatic.

47 verified with experimental, analytical, and numerical data for several cases.

48 For each examination, the raw numerical data from "elevation against the anterior best

49 Unpaired Ttests were used for numerical data.

50 It is important to develop numerical design tools for predicting both wrinkle and b

51 IL-9 has lent its numerical designation to the Th9 subset of CD4(+) Th cel

52 For the first time our study reveals the numerical details about the variations in metabolomic an

53 Our results support the claim that numerical discrimination in 3 vs 4 comparison benefits f

54 ation task) or the array with "fewer" items (numerical discrimination task) spontaneously transferred

55 whether individual object processing affects numerical discrimination.

56 s were used as the basis for validation of a numerical dispersion model, which was then used to predi

57 utational efficiency, parallelizability, low numerical dispersion, unstructured 3D gridding, and disc

58 cond order convergence significantly reduces numerical dispersion.

59 oups did not differ with respect to symbolic numerical distance and size effects in either frequentis

60 The numerical distance effect (it is easier to compare numbe

61 g the bootstrapping method: while a reliable numerical distance effect was present in almost all part

62 A similar numerical distribution of the cell population was found

63 Irrespective of numerical dominance, stochastic expansions were observed

64 e we use a substantial and diverse set of 3D numerical dynamo simulations and recent observation-base

65 length of the electron-gas lens, and perform numerical electron dynamics and probe image simulations

66 In addition, we generated a numerical embedding of the interaction network of protei

67 The numerical error in this case depends on the polar angle

68 the solution search even in the presence of numerical errors.

69 odictive validity', that provides a relative numerical estimate of the accuracy of any given measurem

70 Here we present the first numerical estimates of connection probabilities, numbers

71 The study of numerical estimation collectively spans hundreds of pape

72 In this paper we provide analytical and numerical evidence that a tradeoff exists in networks wi

73 Numerical examples are taken and the results confirm the

74 Numerical examples based on implementation of the Lanczo

75 There was a small numerical excess of cardiac deaths (0.4 percentage point

76 Our findings were confirmed by numerical experiments using low- and high-resolution ver

77 In laboratory and numerical experiments, physical quantities are known wit

78 ena and is later validated against benchmark numerical experiments.

79 tuations based on observational analyses and numerical experiments.

80 ools and the prohibitive costs of systematic numerical exploration of high-dimensional parameter spac

81 The presented numerical framework provides an insight into understandi

82 Here we show, using an established numerical global tidal model and paleogeographic reconst

83 Numerical impact simulations indicate that a 70 km-diame

84 In exploratory analyses, MK-2206 evinced a numerical improvement in event-free survival in its grad

85 A numerical increase in centrosomes, or centrosome amplifi

86 nature of the mechanism allowing to extract numerical information (i.e., numerosity) from environmen

87 Although numerical information about risk is helpful, numbers are

88 packages, GLMMadaptive and glmmTMB, that use numerical integration to fit ZINBMMs.

89 original physical system that persist in the numerical integration to robustly guide the solution sea

90 ation constant is derived and solved through numerical integration.

91 , chaos indicators, and parametrized fits to numerical integrations.

92 A systematic numerical investigation of the model was implemented in

93 Then, mathematical analysis and detailed numerical investigations have enabled to establish that

94 3-day-old chicks (Gallus gallus) on a given numerical magnitude (5).

95 tionarily conserved system for approximating numerical magnitude (the so-called Approximate Number Sy

96 Here, we tested the effect of numerical magnitude in SNA and we controlled for itablen

97 equences for analogue processing of symbolic numerical magnitudes.

98 an analytical anomalous diffusion model with numerical matrix-product-state calculations on a specifi

99 The computational efficiency of the numerical method enables it to run faster than real-time

100 oaching the Ioffe-Regel limit and provides a numerical method that should be practically applicable t

101 State-of-the-art numerical methods for solving such problems utilize spat

102 Numerical methods like finite element method (FEM) are w

103 ase biomarkers and therapeutic targets using numerical methods such as clustering, classification, re

104 g the Fokker-Planck equation using efficient numerical methods, yielding a 100-fold or greater speedu

105 ve MeshER software are suitable for use with numerical methods.

106 cient computational implementations of these numerical methods.

107 rgy-dispersive X-ray spectroscopy (EDX), and numerical methods.

108 C models that are beyond reach with existing numerical methods.

109 A robust numerical model based on LES method was developed and su

110 The calibrated numerical model can quantify the spatial oxygen concentr

111 The numerical model characteristics coincide with experiment

112 g dynamics in a delta network using a simple numerical model consisting of two orders of bifurcations

113 d data were used to identify parameters of a numerical model for oxygen consumption and diffusion.

114 >90% and were in excellent agreement with a numerical model for the sorting process.

115 to increase accuracy even more. We show that numerical model has a good agreement with the experiment

116 We used the numerical model MIKE-21 to simulate photolysis reactions

117 Thus, here we report a numerical model of a stretched-pulsed Tm-doped fibre las

118 Rate coefficients were assessed using a numerical model of the microcosms that were calibrated t

119 f research, persistent biases remain in many numerical model simulations(12-18), including excessivel

120 e an idealized coupled ocean-atmosphere-wave numerical model to analyze tropical cyclone-induced mete

121 mization of new composite electrodes and for numerical model validation.

122 Using a numerical model verified with a laboratory experiment, w

123 lts of a non-hydrostatic and fully nonlinear numerical model.

124 nd beams of specific shapes were designed by numerical modeling and produced using a phased array.

125 roversy through comprehensive analytical and numerical modeling of myosin V diffusion and stepping.

126 Here we present a numerical modeling study of earthquake sequences and ase

127 Here, we combined theory, numerical modeling, and field observations to develop a

128 Here, by exploiting numerical modeling, we discuss the origin of isotropic s

129 apers is devoted to the comparison between a numerical modelling and experimental results; however, l

130 phic field surveys and supported by detailed numerical modelling and high resolution video settling v

131 using ethanol (EtOH) as a cosolvent, while a numerical modelling approach, the central composite desi

132 Numerical modelling of the uptake of gold nanoparticle i

133 laser, which was hitherto not considered in numerical modelling of these sources.

134 Numerical modelling reveals that this modulation is due

135 Through intensive numerical modelling using different independent approach

136 Using numerical modelling, we uncover a universal principle un

137 results of a modelling competition, where 19 numerical models (a mix of established shoreline models

138 Satellite remote sensing and numerical models are widely used to estimate large-scale

139 eement with experimental results proves that numerical models can serve as efficient tools for drug r

140 Numerical models make a wide range of predictions regard

141 We investigate the capacity of published numerical models of thrombin generation to reproduce exp

142 and their parameterization or simulation in numerical models provides increased accuracy to forecast

143 Numerical models that treat the DNA helices as elastic r

144 Current analytical and numerical models used for the calculation of stresses wi

145 Here, using numerical models, we demonstrate that these observations

146 Using 3D numerical models, we investigate the role of pre-existin

147 ored via a combination of semianalytical and numerical models.

148 Furthermore, we developed a novel numerical myocyte model of Ca(2+) alternans that incorpo

149 s of CNV dosage and length, accounts for the numerical nature of copy numbers, and accommodates betwe

150 By eliminating the need for numerical optimization in the M-step, the algorithm is e

151 Finally, numerical optimization indicated that the best extractio

152 While numerical optimization is increasingly and successfully

153 ery targeting tumor vasculature coupled with numerical optimization to pursue optimal nanoparticle ta

154 ng the highest possible Q-factor is found by numerical optimization.

155 sses, definition of objective functions, and numerical optimization.

156 onal autoencoder (VAE) to learn a continuous numerical, or latent, representation of molecular struct

157 First, the validation of the presented numerical platform against experimental data and then re

158 A new competitive numerical platform specifically for designing microfluid

159 , the prediction accuracy of current popular numerical prediction methods is not high.

160 interpretation of dissolution process into a numerical problem led to a small set of selected descrip

161 as demonstrated the feasibility of using non-numerical, qualitative data to parameterize mathematical

162 Thus, numerical rather than physical experiments are conducted

163 -group differences in both worst and average numerical rating scale (NRS) pain scores at 13-16 weeks

164 the worst daily intensity of pruritus on the numerical rating scale (scores range from 0 [no itch] to

165 score on the 24-hour Worst Itching Intensity Numerical Rating Scale (WI-NRS; scores range from 0 to 1

166 A numerical rating scale and the Faces, Legs, Activity, Cr

167 e in the mean peak score for pruritus on the numerical rating scale at week 4.

168 average pain scores assessed separately on a numerical rating scale in weeks 13-16 after randomisatio

169 rface area affected >=10%, and Peak Pruritus Numerical Rating Scale score >=4) with a bodyweight of 4

170 Rapid reductions in the itch numerical rating scale score occurred within 36 hours (1

171 The initial pruritus score on the numerical rating scale was 8.4 in each group.

172 At week 4, the peak pruritus score on the numerical rating scale was reduced from baseline by 4.5

173 p = 0.012), with a directionally consistent numerical reduction for procedural events (4.4% vs. 5.1%

174 However, the numerical reduction in time to clinical improvement in t

175 users (29% reduction; P < 0.001), but only a numerical reduction was seen among prior ICS nonusers (1

176 es type local contact interaction model with numerical regularization to study the transition from pa

177 ations and measurements is based on skillful numerical representation of processes across a heterogen

178 Comparing experimental with numerical results and theoretical estimates, we demonstr

179 Numerical results for the self-propelled Voronoi model r

180 The empirical data were consistent with numerical results from a model of two coupled nonisochro

181 Our numerical results include the approximate solution of 10

182 Numerical results indicate that, compared to state-of-th

183 Through the numerical results obtained, it is discerned that the tra

184 0.02 in agreement with recent high-precision numerical results on the correlation length exponent of

185 are carried out, providing essentially exact numerical results on the thermodynamic properties.

186 Our numerical results show that the hub-set-orientation prev

187 itative comparisons between experimental and numerical results show that the proposed model successfu

188 , Spain, Brazil, Germany and France, and the numerical results showed that the framework can effectiv

189 Numerical results suggest that there is not a genuine pa

190 Analytical and numerical results suggest that, despite the large number

191 Our numerical results support the omega(-4/3) scaling of the

192 To elucidate our numerical results, we develop an effective elasticity th

193 This procedure reduces the two-dimensional numerical search for the maximum of the likelihood surfa

194 inical parameters, such as classification, a numerical severity scale, vascular clock hours, and best

195 d is reported and excellent agreement with a numerical simulation and previous studies is found.

196 ns according to our measurements to derive a numerical simulation for BD neurons.

197 he hypothesis of fractional exponents (1) by numerical simulation for disease propagation in graphs i

198 Our numerical simulation indicates that mDC loses sensitivit

199 Toward this goal, we introduce a real-time numerical simulation model of a long chain polymer in th

200 velopment trends of ENSO through appropriate numerical simulation models.

201 Using a numerical simulation of a large-scale plume, the lobster

202 We benchmark our approach using numerical simulation of noisy three-qubit gates, and sho

203 These results are supported by numerical simulation of theoretical pore density which a

204 To advance numerical simulation of these belowground processes, we

205 Numerical simulation results indicate that the new model

206 A front-tracking numerical simulation shows that the engineered shell mat

207 Numerical simulation suggests a change in membrane poten

208 We used mathematical analysis and numerical simulation to estimate the impact of seasonali

209 oft robotic engineering, here we introduce a numerical simulation tool for limbed soft robots that dr

210 s are convincingly supported by a model (and numerical simulation) for both Neumann and Dirichlet bou

211 Numerical simulation, analytical modelling, additive lay

212 he data used in this study are from a direct numerical simulation, and the spot boundaries (interface

213 lso find, through analytical calculation and numerical simulation, branching of this configuration sp

214 in the flow passage pipeline were studied by numerical simulation.

215 ore density which are in good agreement with numerical simulation.

216 c enclosures have been analysed using Direct Numerical Simulations (DNS) for a range of different val

217 al conditions were preliminary delineated by numerical simulations according to the flow velocity and

218 Numerical simulations agree well with experimental resul

219 We apply numerical simulations and an asymptotically exact renorm

220 However, to date only numerical simulations and experimental measurements have

221 nce of the dynamic kirigami outsoles through numerical simulations and in vitro friction testing, as

222 tructures fill the ocean surface, and recent numerical simulations and indirect observations suggest

223 Our numerical simulations and mathematical analysis revealed

224 are analyzed and interpreted with respect to numerical simulations and provide insight into fundament

225 We perform extensive numerical simulations and theoretical analysis.

226 the ambient conditions is elucidated by both numerical simulations based on steady-state diffusion an

227 Combining this with numerical simulations benchmarked against neutron scatte

228 Alternatively, numerical simulations can be conducted in digital rock 3

229 Numerical simulations demonstrate that increasing Jagged

230 Numerical simulations have shown that samples having tho

231 ing ab-initio software packages dedicated to numerical simulations in physical-chemistry and atomic a

232 tical understanding and trends identified in numerical simulations in warming scenarios.

233 Numerical simulations indicate that the observed rapid c

234 hese factors, we utilized reaction-diffusion numerical simulations of 1) adenosine triphosphate (ATP)

235 Numerical simulations of a two-band t-J model reveal tha

236 Here we use state-of-the-art numerical simulations of atmospheric transport and meteo

237 Comparison of 3D numerical simulations of Chicxulub-scale impacts with ge

238 ill the gap by performing intensive discrete numerical simulations of cohesive grains flowing down an

239 bines microtomographic imaging with advanced numerical simulations of effective material properties.

240 Using numerical simulations of global-scale seismic wave propa

241 Here we show, through numerical simulations of large asteroid disruptions, tha

242 We use high-resolution numerical simulations of Pluto's climate to show that th

243 This feedback emerges in numerical simulations of the coupled marine cycles of ma

244 Here we show, by direct numerical simulations of three-dimensional turbulent Ray

245 we present results on highly resolved direct numerical simulations of turbid underflows that involve

246 We have performed extensive numerical simulations on publicly available datasets fro

247 from wind are analyzed using high resolution numerical simulations over the eastern USA.

248 Numerical simulations predict that the oily bubbles with

249 Recent numerical simulations predicted that a geometry-based ru

250 Numerical simulations show that cells inside the tissue

251 models of galaxy formation(1,2), but recent numerical simulations suggest that such galaxies could f

252 y, we confirm our physical interpretation by numerical simulations that are in qualitative agreement

253 ) have been extrapolated and buttressed with numerical simulations to derive the impact strength at t

254 Here, we use molecular and numerical simulations to elucidate how the degree of pol

255 We combine analytical calculations and numerical simulations to investigate how these results c

256 We performed numerical simulations to investigate the effect of ACET

257 I use numerical simulations to show that when component respon

258 As such, this paper reports results from numerical simulations to study the role of fluid rheolog

259 Using numerical simulations we first show that, contrary to th

260 Numerical simulations were carried out to investigate th

261 as remain challenging to reproduce with most numerical simulations(7,8).

262 report, in full agreement with accompanying numerical simulations, a time-bandwidth product (TBP) ex

263 s on critical Casimir colloidal suspensions, numerical simulations, and analytical modeling with a ma

264 atures, using orders-of-magnitude estimates, numerical simulations, and laboratory experiments.

265 ton induced Coulomb explosion, is applied in numerical simulations, giving good agreement with the ex

266 a combination of analytical derivations and numerical simulations, I show that this form of positive

267 ical cyclone (TC) wind intensity, as well as numerical simulations, implies a positive trend in TC in

268 Combined with numerical simulations, our results demonstrate that thes

269 Based on analytic and numerical simulations, the method can exhibit an in-band

270 Using numerical simulations, we computed the fluid shear, soli

271 been modeled from approximate approaches or numerical simulations.

272 neutral-like outcomes, which we verify using numerical simulations.

273 respectively, in agreement with wave-optics, numerical simulations.

274 s to experimental data and to results of our numerical simulations.

275 oretical explanation is provided, as well as numerical simulations; the concept is validated by means

276 lem, we model a one-dimensional semianalytic numerical simulator and demonstrate the effectiveness of

277 The proposed model is implemented in a numerical simulator and the wall time required to perfor

278 entific processes can achieve speed-ups over numerical simulators or experiments and at the same time

279 l participants, the prevalence of a reliable numerical size effect was much lower.

280 ls, to the reduction of social inequality in numerical skill and discuss possible explanations for th

281 24 trained teachers scored 0.29 SD higher on numerical skills at posttest than children in 25 randoml

282 flexible machine learning framework for the numerical solution of potential MFG and MFC models.

283 iments is compared with that obtained from a numerical solution of the Navier-Stokes equations for di

284 monstrated using results of state-of-the-art numerical solutions of the time-dependent Schrodinger eq

285 Numerical solutions show that such scale separation rema

286 methods have a great advantage by providing numerical solutions, since theoretical distributions of

287 Our findings lead to the development of a numerical stickers-and-spacers model that enables predic

288 As illustrated in our numerical studies, this performance tradeoff seems agnos

289 We corroborate the results by a numerical study of the correlations between the volumes

290 BP, combining geometric morphometrics numerical taxonomy, ancient mitochondrial DNA and direct

291 computer simulations of such processes using numerical techniques such as the finite element method.

292 We give an overview of the numerical techniques that are widely used for real-time

293 dot and diamond defect systems, as we see no numerical tendency towards conventional thermalization w

294 Extensive numerical tests show that our method performs very compe

295 he Steinbruch Schmidt section is anchored in numerical time by means of a radio-isotopic date, obtain

296 Numerical trends suggesting fewer IOP elevations with EG

297 Analyzing highly-resolved numerical turbulent solutions to Navier-Stokes equations

298 of Ginzburg-Landau-Devonshire expansion, and numerical value of the corresponding parameters.

299 Here, we develop an analytical and numerical variational approach that combines continuum m

300 to simulated cytoplasm by our framework, and numerical verification proved that our method has a smal