|
|
Volumn , Issue , 2012, Pages 1096-1107
|
|
2-D fine grid hydrodynamic modeling for more accurate floodplain mapping in Southern California
a
|
|
Author keywords
2 D hydrodynamic modeling; Floodplain delineation; Urban flooding
|
|
Indexed keywords
1-D MODELS;
2-D MODEL;
CALIFORNIA;
COMPUTATIONAL TIME;
CONTROL STRUCTURE;
DATA REQUIREMENTS;
EMPIRICAL MODEL;
EXECUTION TIME;
FINE GRIDS;
FLOOD PLAINS;
FLOODPLAIN DELINEATION;
FLOODPLAIN MAPPING;
GIS LAYERS;
GRID SIZE;
HEC-HMS;
HEC-RAS MODEL;
HIGH-SPEED;
HYDRODYNAMIC MODEL;
HYDRODYNAMIC MODELING;
HYDROGRAPHS;
HYDROLOGIC DATA;
HYDROLOGY DATA;
MAJOR FACTORS;
MODEL DOMAINS;
MODEL SET;
MODELING APPROACH;
MODELING RESULTS;
MORPHOMETRY;
OUTPUT ANALYSIS;
PEAK FLOWS;
PHYSICAL DOMAIN;
PHYSICAL MODEL;
RATIONAL METHODS;
REGULATORY BODIES;
RIGOROUS MODEL;
SIMULATION TIME;
SITE CONDITIONS;
SOUTHERN CALIFORNIA;
STEADY-STATE MODELING;
STORMWATERS;
TEMPORAL AND SPATIAL VARIABILITY;
TOPOGRAPHIC FEATURES;
TOPOGRAPHIC INFORMATION;
UNSTEADY STATE;
URBAN FLOODING;
ANIMATION;
BANKS (BODIES OF WATER);
C (PROGRAMMING LANGUAGE);
CALIBRATION;
COMPUTER SIMULATION;
GRAPHICAL USER INTERFACES;
HYDROLOGY;
MODELS;
TIME SERIES;
WATER RESOURCES;
HYDRODYNAMICS;
|
|
EID: 84866109685
PISSN: None
EISSN: None
Source Type: Conference Proceeding
DOI: 10.1061/9780784412312.112 Document Type: Conference Paper |
|
Times cited : (3)
|
|
References (2)
|
