Engineering
One Dimensional
66%
Hemodynamic Parameter
58%
Parameter Estimation
41%
Wave Velocity
35%
Model Parameter
33%
Intensity Analysis
25%
Medical Image
25%
Preclinical Assessment
25%
Good Agreement
25%
Pressure Flow
25%
Pilot Data
25%
Image Analysis
25%
Image Understanding
25%
Boundary Condition
25%
Software Application
25%
Flow Velocity
25%
Flow Model
25%
Aircraft Detection
25%
Aircraft System
25%
Detect and Avoid
25%
Remotely Piloted Aircraft
25%
Healthy Subject
19%
Wave Reflection
16%
Event Detection
16%
Early Stage
12%
Simulation Model
12%
Flow Measurement
12%
Model Input
12%
Metrics
12%
Relative Error
12%
Patient Specific
12%
Characteristic Impedance
10%
Transfer Function
8%
Network Parameter
8%
Pressure Error
8%
Axisymmetric Flow
8%
Pulse Oximeter
8%
Incompressible Flow
8%
Stroke Volume
8%
Cylindrical Tube
8%
Inflow Boundary
8%
Physiological Models
8%
Peak Pressure
8%
Domain Analysis
8%
Transmission Line Theory
8%
Diastolic Pressure
8%
Frequency Domain
8%
Time Domain
8%
Square Method
8%
Deep Learning Method
8%
Medicine and Dentistry
Blood Pressure
100%
Pulse Wave Velocity
91%
In Silico
70%
Aortic Pressure
56%
Magnetic Resonance Imaging
54%
Aortic Flow
46%
Pulse Pressure
42%
UK Biobank
41%
Blood Flow
25%
Cardiac Magnetic Resonance Imaging
25%
Racial Group
25%
Pulse Rate
18%
Cardiovascular Risk
16%
Stroke Volume
16%
Thoracic Aorta
16%
Analysis of Covariance
16%
Linear Regression Analysis
16%
Heart Function
16%
Myocardium
16%
Ventricle of Heart
16%
Heart Ventricle Ejection
12%
Hemodynamic
11%
Ascending Aorta
9%
Cardiovascular System
8%
Coarctation of the Aorta
8%
Group Sex
8%
Ethnic Minority Group
8%
Ejection Fraction
8%
Biological Marker
8%
Health Care Cost
8%
Coarctation of Aorta
7%
Heart Ventricle Contractility
6%
Muscle Contractility
6%
Peak Expiratory Flow
6%
Immunology and Microbiology
Pulse Wave
75%
Healthy Aging
50%
Hemodynamic
38%
Normal Human
34%
Blood Pressure
27%
Artificial Intelligence
25%
Pulse Rate
17%
Arterial Stiffness
12%
Artery
7%
Pulse Pressure
5%
Aortic Flow
5%
Heart Function
5%
Ascending Aorta
5%