44,762 research outputs found
Application of the SRI cloud-tracking technique to rapid-scan GOES observations
An automatic cloud tracking system was applied to multilayer clouds associated with severe storms. The method was tested using rapid scan observations of Hurricane Eloise obtained by the GOES satellite on 22 September 1975. Cloud tracking was performed using clustering based either on visible or infrared data. The clusters were tracked using two different techniques. The data of 4 km and 8 km resolution of the automatic system yielded comparable in accuracy and coverage to those obtained by NASA analysts using the Atmospheric and Oceanographic Information Processing System
Fully-coupled analysis of jet mixing problems. Part 1. Shock-capturing model, SCIPVIS
A computational model, SCIPVIS, is described which predicts the multiple cell shock structure in imperfectly expanded, turbulent, axisymmetric jets. The model spatially integrates the parabolized Navier-Stokes jet mixing equations using a shock-capturing approach in supersonic flow regions and a pressure-split approximation in subsonic flow regions. The regions are coupled using a viscous-characteristic procedure. Turbulence processes are represented via the solution of compressibility-corrected two-equation turbulence models. The formation of Mach discs in the jet and the interactive analysis of the wake-like mixing process occurring behind Mach discs is handled in a rigorous manner. Calculations are presented exhibiting the fundamental interactive processes occurring in supersonic jets and the model is assessed via comparisons with detailed laboratory data for a variety of under- and overexpanded jets
Application of an automatic cloud tracking technique to Meteosat water vapor and infrared observations
The automatic cloud tracking system was applied to METEOSAT 6.7 micrometers water vapor measurements to learn whether the system can track the motions of water vapor patterns. Data for the midlatitudes, subtropics, and tropics were selected from a sequence of METEOSAT pictures for 25 April 1978. Trackable features in the water vapor patterns were identified using a clustering technique and the features were tracked by two different methods. In flat (low contrast) water vapor fields, the automatic motion computations were not reliable, but in areas where the water vapor fields contained small scale structure (such as in the vicinity of active weather phenomena) the computations were successful. Cloud motions were computed using METEOSAT infrared observations (including tropical convective systems and midlatitude jet stream cirrus)
Influence of polydispersity on micromechanics of granular materials
We study the effect of polydispersity on the macroscopic physical properties
of granular packings in two and three dimensions. A mean-field approach is
developed to approximate the macroscale quantities as functions of the
microscopic ones. We show that the trace of the fabric and stress tensors are
proportional to the mean packing properties (e.g. packing fraction, average
coordination number, and average normal force) and dimensionless correction
factors, which depend only on the moments of the particle-size distribution.
Similar results are obtained for the elements of the stiffness tensor of
isotropic packings in the linear affine response regime. Our theoretical
predictions are in good agreement with the simulation results.Comment: 13 pages, 13 figures, 2 table
- …