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Bio-inspired MEMS flow and inertial sensors
H. Droogendijk
Research output
:
Thesis
›
PhD Thesis - Research UT, graduation UT
1093
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Engineering
Actuation
12%
Amplitude Modulation
25%
Amplitudes
12%
Angular Acceleration
12%
Applications
25%
Bias Voltage
62%
Biomimetics
37%
Capacitive
25%
Detection
12%
Determines
12%
Drives
12%
Electric Potential
25%
Electrostatic Actuation
12%
Electrostatics
12%
Energy Engineering
12%
Energy Level
12%
Environment
12%
Figure of Merit
12%
Filled Tube
12%
Filtration
25%
Flow Rate
25%
Flow Sensor
100%
Fluid Flow
12%
Frequency Range
12%
Gimbal
12%
Guideline
12%
Harmonics
12%
Inertial Sensor
100%
Limitations
12%
Lithography
12%
Low Frequency
25%
Measurement
25%
Measurement Setup
12%
Metrics
12%
Models
12%
Obtains
12%
Optimization
12%
Oscillatory
12%
Performance
62%
Physical Quantity
12%
Research
12%
Responsivity
12%
Signal-to-Noise Ratio
25%
Sinusoidal Voltage
12%
Surface Micro-Machining
12%
Thermal Noise
12%
Threshold Force
12%
Transients
12%
Water
12%
Wells
12%
Physics
Air Flow
23%
Amplitude Modulation
15%
Amplitudes
7%
Biomimetics
23%
Detection
15%
Eddy
7%
Electric Potential
61%
Electrostatics
15%
Energy Levels
7%
Environment
7%
Flow Velocity
15%
Frequencies
38%
Frequency Ranges
7%
Hair
100%
Harmonics
7%
Impact
7%
Information
23%
Light
7%
Lithography
7%
Micromachining
7%
Model
7%
Optimization
7%
Performance
38%
Pressure Dependence
7%
Sensory Perception
7%
Signal-to-Noise Ratio
15%
Speed
7%
Technology
7%
Transients
7%
Utilization
15%
Value
7%
Water
7%
Chemistry
Acceleration
11%
Amount
5%
Application
11%
Capacitor
11%
Device
5%
Electron Energy Level
5%
Energy
5%
Engineering Process
5%
Environment
5%
Figure of Merit
5%
Force
5%
Microelectromechanical System
100%
Micromachining
5%
Noise
23%
Optimization
5%
Physical Quantity
5%
Pressure
5%
Procedure
5%
Rate
5%
Sensor
100%
Strength
11%
Structure
5%
Surface
5%
Velocity
17%
Voltage
47%
Water Type
5%
Material Science
Accelerometer
17%
Capacitor
11%
Characterization
5%
Devices
5%
Mechanical Strength
11%
Micromachining
5%
Sensor
100%
Surface
5%
Transducer
5%
Velocity
17%
Earth and Planetary Sciences
Pressure Dependence
12%