Stochastic modeling of multi-dimensional precipitation fields /

A new multi-dimensional stochastic precipitation model is

Bibliographic Details
Main Author: Yoo, Chulsang, 1965-
Format: Thesis Book
Language:English
Published: [Place of publication not identified] : [publisher not identified] ; 1995.
Subjects:
Online Access:http://proxy.library.tamu.edu/login?url=http://proquest.umi.com/pqdweb?did=742164571&sid=1&Fmt=2&clientId=2945&RQT=309&VName=PQD
Description
Summary:A new multi-dimensional stochastic precipitation model is
proposed with major
emphasis on its spectral structure. As a hyperbolic type
of stochastic partial differential equation, this model is
characterized by having a small set of parameters, which
could be easily estimated. These characteristics are similar
to those of the noise forced diffusive precipitation model,
but representation of the physical and statistical features
of the precipitation field is better as in the WGR
precipitation model. The model derivation was based on the
AR (Auto Regressive) process consdering advection and
diffusion, the dominant statistical and physical
characteristics of the precipitation field propagation. The
model spectrum showed a good match for the GATE spectrum
developed by Nakamoto et aL [1990]. This model was also
compared with the WGR model and the noise forced diffusive
precipitation model analytically and through applications
such as the sampling error estimation from space-borne
sensors and raingages, and the ground-truth problem. The
sampling error from space-borne sensors based on the proposed
model was similar to that of the noise forced diffusive
precipitation model but much smaller than that of the WGR
model. Similar result was also obtained in the estimation of
the sampling error from raingages. The dimensionless root
mean square error of the proposed model in the ground-truth
problem was in between those of the WGR model and the noise
forced diffusive precipitation model, even though the
difference was very small. Simulation study of the realistic
precipitation field showed the effect of the variance of the
noise forcing term on the life time of a storm event.
Item Description:Vita.
"Major Subject: Civil Engineering".
Physical Description:xii, 81 leaves : illustrations ; 28 cm.
Issued also on microfiche from University Microfilms Inc.
Bibliography:Includes bibliographical references.