International Master Program on Natural Hazards Mitigation and Management

Fingerprint Dive into the research topics where International Master Program on Natural Hazards Mitigation and Management is active. These topic labels come from the works of this organisation's members. Together they form a unique fingerprint.

Earth & Environmental Sciences

porous medium
immiscible fluid
consolidation
fluid
poroelasticity
soil
wave propagation
acoustic wave
soil texture
elastic wave
saturation
porewater
half space
dynamic response
pore pressure
water
unsaturated medium
fluid flow
saturated medium
cyclic loading
water retention
soil drainage
two phase flow
elasticity
wave attenuation
gravity
retirement
effect
Rayleigh wave
water content
precipitation intensity
fluid pressure
atmospheric pressure
root system
drag
refraction
boundary condition
momentum
sediment transport
acoustics
hydraulics
permeability
hydrology
capillary pressure
effective stress
groundwater
trichloroethylene
sandy loam
aquifer
rainfall
air
dissipation
drainage
modeling
phase velocity
Laplace transform
simulation
compressibility
hysteresis
erosion
sand
soil depth
wave equation
parameter
Helmholtz equation
shear strength
imbibition
reinforcement
S-wave
Biot theory
sensitivity analysis

Engineering & Materials Science

Soils
Consolidation
Porous materials
Water
Fluids
Acoustic wave propagation
Clay
Rayleigh waves
Silt
Sediment transport
Drought
Drainage
Sand
Shear strength
Wave propagation
Water content
Vibrations (mechanical)
Textures
Boundary conditions
Acoustics
Hydraulics
Acoustic waves
Erosion
Rivers
Partial differential equations
Subsidence
Wave equations
Helmholtz equation
Sediments

Agriculture & Biology

soil
Taiwan
soil texture
water
shear strength
sand
unsaturated conditions
clay
rain intensity
drainage water
porous media
silt
vibration
subsidence
water content
shear stress
water table
shears
root systems
acoustics
drought
case studies
drainage
air
strength (mechanics)
rain
testing