Climates of Warm Earth-like Planets. I. 3D Model Simulations

Syllable-final nasals /n/ and /ŋ/ in Taiwan Mandarin have been reported to be undergoing merging. Perceptual studies have reported that the alleged merging is context-sensitive and the merging directions are vowel-dependent. These findings have been mostly attributed to dialectal and social factors. The current study uses ultrasonography to capture postures of the entire tongue during the production of syllable-final nasals. The results, though confirming previous findings that the merging directions of syllable-final nasals are vowel-dependent, are best accounted for by the biomechanics of the tongue, as supported by computational 3D model simulations. Furthermore, for some speakers, although nasals were merged in terms of tongue posture, the degrees of nasalization of the preceding vowel were contrastive, suggesting that the merging process may be incomplete.

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Using Multi-Sensory and Multi-Dimensional Immersive Virtual Reality in Participatory Planning

Urban Science ◽

10.3390/urbansci4030034 ◽

2020 ◽

Vol 4 (3) ◽

pp. 34

Author(s):

Mahbubur Meenar ◽

Jennifer Kitson

Keyword(s):

Virtual Reality ◽

Focus Group ◽

Spatial Planning ◽

3D Model ◽

Emotional Responses ◽

Digital Technologies ◽

Participatory Planning ◽

Immersive Virtual Reality ◽

Model Simulations ◽

The Impact

In the last two decades, urban planners have embraced digital technologies to complement traditional public participation processes; research on the impact of smarter digital instruments, such as immersive virtual reality (IVR), however, is scant. We recruited 40 focus group participants to explore various formats of spatial planning scenario simulations in Glassboro, NJ, USA. Our study finds that the level of participation, memory recalls of scenarios, and emotional responses to design proposals are higher with multi-sensory and multi-dimensional IVR simulations than with standard presentations such as 2D videos of 3D model simulations, coupled with verbal presentations. We also discuss the limitations of IVR technology to assist urban planning practitioners in evaluating its potential in their own participatory planning efforts.

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Comparison of ADCP observations and 3D model simulations of turbulence at a tidal energy site

Renewable Energy ◽

10.1016/j.renene.2017.03.061 ◽

2017 ◽

Vol 114 ◽

pp. 273-282 ◽

Cited By ~ 19

Author(s):

Michael Togneri ◽

Matt Lewis ◽

Simon Neill ◽

Ian Masters

Keyword(s):

3D Model ◽

Tidal Energy ◽

Model Simulations ◽

Adcp Observations

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Active diffusion in oocytes nonspecifically centers large objects during prophase I and meiosis I

The Journal of Cell Biology ◽

10.1083/jcb.201908195 ◽

2020 ◽

Vol 219 (3) ◽

Cited By ~ 4

Author(s):

Alexandra Colin ◽

Gaëlle Letort ◽

Nitzan Razin ◽

Maria Almonacid ◽

Wylie Ahmed ◽

...

Keyword(s):

3D Model ◽

Experimental Measurements ◽

Test Model ◽

Effective Pressure ◽

Chromosome Movement ◽

Model Simulations ◽

Model Predictions ◽

Biased Diffusion ◽

Passive Tracers ◽

Meiosis I

Nucleus centering in mouse oocytes results from a gradient of actin-positive vesicle activity and is essential for developmental success. Here, we analyze 3D model simulations to demonstrate how a gradient in the persistence of actin-positive vesicles can center objects of different sizes. We test model predictions by tracking the transport of exogenous passive tracers. The gradient of activity induces a centering force, akin to an effective pressure gradient, leading to the centering of oil droplets with velocities comparable to nuclear ones. Simulations and experimental measurements show that passive particles subjected to the gradient exhibit biased diffusion toward the center. Strikingly, we observe that the centering mechanism is maintained in meiosis I despite chromosome movement in the opposite direction; thus, it can counteract a process that specifically off-centers the spindle. In conclusion, our findings reconcile how common molecular players can participate in the two opposing functions of chromosome centering versus off-centering.

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The Impact of Dimensionality on Barotropic Processes during KWAJEX

Journal of the Atmospheric Sciences ◽

10.1175/jas-d-16-0184.1 ◽

2017 ◽

Vol 74 (8) ◽

pp. 2675-2688 ◽

Cited By ~ 1

Author(s):

Huiyan Xu ◽

Xiaofan Li

Keyword(s):

Kinetic Energy ◽

3D Model ◽

Model Simulation ◽

Vertical Transport ◽

Model Simulations ◽

The Mean ◽

Horizontal Momentum ◽

2D And 3D ◽

The Impact ◽

2D Model

Abstract In this study, the 2D and 3D cloud-resolving model simulations of the Tropical Rainfall Measuring Mission (TRMM) Kwajalein Experiment (KWAJEX) are compared to study the impact of dimensionality on barotropic processes during tropical convective development. Barotropic conversion of perturbation kinetic energy is associated with vertical transport of horizontal momentum under vertical shear of background horizontal winds. The similarities in both 2D and 3D model simulations show that 1) vertical wind shear is a necessary condition for barotropic conversion, but it does not control the barotropic conversion; 2) the evolution of barotropic conversion is related to that of the vertical transport of horizontal momentum; and 3) the tendency of vertical transport of horizontal momentum is mainly determined by the covariance between horizontal wind and the cloud hydrometeor component of buoyancy. The differences between the 2D and 3D model simulations reveal that 1) the barotropic conversion has shorter time scales and a larger contribution in the 2D model simulation than in the 3D model simulation and 2) kinetic energy is generally converted from the mean circulations to perturbation circulations in the 3D model simulation. In contrast, more kinetic energy is transferred from perturbation circulations to the mean circulations in the 2D model simulation. The same large-scale vertical velocity may account for the similarities, whereas the inclusion of meridional winds in the 3D model simulation may be responsible for the differences in barotropic conversion between the 2D and 3D model simulations.

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Water supply of Bologna (Italy) by Roman aqueduct: history, morphology and hydraulic, from ancient time to nowadays

Water Science & Technology Water Supply ◽

10.2166/ws.2010.107 ◽

2010 ◽

Vol 10 (4) ◽

pp. 554-560

Author(s):

Renato Drusiani ◽

Giancarlo Leoni ◽

Danilo Demaria ◽

Nicoletta Lembo

Keyword(s):

Mathematical Model ◽

Drinking Water ◽

Water Supply ◽

Water Level ◽

3D Model ◽

Working Condition ◽

New Era ◽

Model Simulations ◽

Ancient Time ◽

Tunnel Section

A brief description of the geomorphological, historical, and archaeological aspects of the ancient Bononia (now Bologna) supply by means of an ancient tunnel made by Romans at the beginning of the new, era and its evolution to a nowadays when it's already used (13%) to assure drinking water supply of Bologna Town. Recent exploration of the tunnel has permitted to obtain most data of ancient water level signs and size of tunnel section in the different conditions. New data obtained by this exploration allow to build a CAD 3D model of the tunnel and in this way it was possible to calculate the realistic flow of the ancient tunnel. Mathematical model simulations indicate the effectiveness of the ancient tunnel in achieving these objectives in working condition and during the periodical maintenance.

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Detection and Characterization of earth-like Planets

International Astronomical Union Colloquium ◽

10.1017/s0252921100014810 ◽

1997 ◽

Vol 161 ◽

pp. 299-311 ◽

Cited By ~ 22

Author(s):

Jean Marie Mariotti ◽

Alain Léger ◽

Bertrand Mennesson ◽

Marc Ollivier

Keyword(s):

Direct Detection ◽

Contrast Ratio ◽

Angular Size ◽

Physical Nature ◽

Major Axis ◽

Infrared Emission ◽

Space Technology ◽

Semi Major Axis ◽

Earth Like Planets ◽

Visible Wavelengths

AbstractIndirect methods of detection of exo-planets (by radial velocity, astrometry, occultations,...) have revealed recently the first cases of exo-planets, and will in the near future expand our knowledge of these systems. They will provide statistical informations on the dynamical parameters: semi-major axis, eccentricities, inclinations,... But the physical nature of these planets will remain mostly unknown. Only for the larger ones (exo-Jupiters), an estimate of the mass will be accessible. To characterize in more details Earth-like exo-planets, direct detection (i.e., direct observation of photons from the planet) is required. This is a much more challenging observational program. The exo-planets are extremely faint with respect to their star: the contrast ratio is about 10−10at visible wavelengths. Also the angular size of the apparent orbit is small, typically 0.1 second of arc. While the first point calls for observations in the infrared (where the contrast goes up to 10−7) and with a coronograph, the latter implies using an interferometer. Several space projects combining these techniques have been recently proposed. They aim at surveying a few hundreds of nearby single solar-like stars in search for Earth-like planets, and at performing a low resolution spectroscopic analysis of their infrared emission in order to reveal the presence in the atmosphere of the planet of CO H2O and O3. The latter is a good tracer of the presence of oxygen which could be, like on our Earth, released by biological activity. Although extremely ambitious, these projects could be realized using space technology either already available or in development for others missions. They could be built and launched during the first decades on the next century.

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