Earth and Planetary Sciences
Impact
100%
Water
100%
Slamming
100%
Data Set
100%
Ships
100%
Probability Theory
56%
Wave
56%
Model
23%
Occurrence
20%
Surface Pressure
16%
Increasing
16%
Speed
13%
Surge
13%
Impact Loads
10%
Show
10%
Heave
10%
Elevation
10%
Set
10%
Prediction
6%
Investigation
6%
Goal
6%
Experiment
6%
Agreement
3%
Complexity
3%
Identifying
3%
Random Noise
3%
Hull
3%
Amplitude
3%
Risk
3%
Test Facility
3%
Damage
3%
Swell
3%
Value
3%
Low Pressure
3%
Significant Wave Height
3%
Rarity
3%
Variation
3%
Input
3%
Estimate
3%
Machine Learning
3%
Sea State
3%
Running
3%
High Pressure
3%
Need
3%
Testing Time
3%
INIS
ships
100%
statistics
100%
water
100%
experimental data
100%
probability
56%
data
40%
pitches
23%
increasing
16%
distribution
16%
surges
13%
motion
13%
velocity
13%
springs
10%
elevation
10%
prediction
6%
design
6%
testing
6%
noise
6%
accidents
3%
tanks
3%
operation
3%
wave propagation
3%
indicators
3%
risks
3%
acceleration
3%
damage
3%
values
3%
range
3%
variations
3%
test facilities
3%
speed
3%
amplitudes
3%
machine learning
3%
comparative evaluations
3%
height
3%
nonlinear problems
3%
low pressure
3%
randomness
3%
equations
3%
seas
3%
high pressure
3%
Engineering
Green Water
100%
Experimental Data Set
100%
Event
33%
Model
25%
Deck
22%
Dataset
18%
Ships
18%
Impact Pressure
11%
Mass-Spring System
11%
Exceedance
11%
Water
11%
Forward Velocity
11%
Surface Pressure
7%
Pitch Motion
7%
Maximum Pressure
7%
Design
7%
Prediction
7%
Pressure Event
7%
Experiment
7%
Forward Speed
3%
Test Facility
3%
Facilities
3%
Velocity
3%
Impact Occurs
3%
Superlattice
3%
Joint Probability
3%
Low Pressure
3%
Accident
3%
Collect Data
3%
Phase Difference
3%
Collected Data
3%
High Pressure
3%
Independent Variables
3%
Complexity
3%
Limit Pressure
3%
Testing Time
3%
Testing
3%
Full Scale
3%
Large Set
3%
Sea State
3%
Decks (Ship)
3%
Response Amplitude Operator
3%
Input Data
3%
Significant Wave Height
3%
Highlight
3%
Machine Learning Method
3%
Forward Draft
3%