Keyphrases
Microswimmers
100%
Wave Energy Converter
100%
Electret
100%
Microorganisms
50%
Artificial Microswimmers
50%
Dynamical Modeling
50%
Joint Model
50%
Acoustic Waves
50%
Resistive Force Theory
50%
Modeling Analysis
50%
Parametric Analysis
50%
Locomotion
31%
Dynamic Behavior
25%
Actuation Strategies
25%
Remote Fields
25%
Propulsion Mechanism
25%
Actuation Mechanism
25%
Steerability
25%
Microrobot
25%
Carbon Neutrality
16%
High Power Density
16%
Average Power
16%
Cost-effectiveness
16%
Rectangular Cross-section
12%
Terminal Velocity
12%
Fluid-structure Interaction
12%
Power Take-off
12%
Electrostatic Induction
10%
Dynamic Stability
10%
Long Service Life
10%
Triboelectrification
10%
Energy Dynamics
10%
Energy Conversion
10%
High Output Power
10%
Average Power Density
10%
Acoustic Actuation
6%
Wave Power Plants
6%
Magnetoacoustics
6%
Internet of Underwater Things (IoUT)
6%
Event-driven Algorithm
6%
Nonsmooth
6%
Subharmonic Resonance
6%
Energy Conversion Performance
6%
Correction Factor
6%
Two-dimensional Flow Field
6%
Power Output
6%
Electromechanical System
6%
Morison Equation
6%
Acoustics
6%
Flagella
6%
Engineering
Power Converter
100%
Wave Energy
100%
Electret
100%
Theoretical Investigation
50%
Resistive
50%
Parametric Analysis
50%
Joints (Structural Components)
50%
Experimental Investigation
50%
Power Density
25%
Average Power
25%
Two Dimensional
18%
Energy Conversion
15%
Power Output
15%
Rectangular Cross Section
12%
Fluid-Structure Interaction
12%
Terminal Velocity
12%
Takeoff
11%
Experimental Result
10%
Dynamic Stability
10%
Service Life
10%
Artificial Joint
6%
Dimensional Flow Field
6%
Actuation
6%
Regular Wave
5%
Morison Equation
5%
Incident Wave
5%
Provide Support
5%
Current Source
5%
Matched Load
5%
Load Resistance
5%
Electromechanical System
5%
Physics
Direct Power Generator
100%
Electret
100%
Swimming
50%
Acoustics
50%
Terminal Velocity
16%
Carbon Neutrality
16%
Takeoff
12%
Theoretical Model
10%
Service Life
10%
Dynamic Stability
10%
Triboelectrification
10%
Electrostatics
10%
Two Dimensional Flow
8%
Flow Distribution
8%
Linear Wave Theory
6%
Wave Excitation
6%
Superharmonics
6%