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An optical sprayer nozzle flow rate sensor
J. S. Dvorak
, L. E. Bryant
Biosystems and Agricultural Engineering
Energy Research Priority Area
Research output
:
Contribution to journal
›
Article
›
peer-review
3
Scopus citations
Overview
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Dive into the research topics of 'An optical sprayer nozzle flow rate sensor'. Together they form a unique fingerprint.
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Engineering
Flow Rate
88%
Nozzle
77%
Sensor
55%
Error
33%
Test Condition
33%
Testing
22%
Determines
22%
Impeller
22%
Mean Absolute Error
22%
Applications
11%
Performance
11%
Zeros
11%
Measurement
11%
Demonstrates
11%
Volumetrics
11%
Validation
11%
Estimation
11%
Calibration Curve
11%
System Pressure
11%
Sensor System
11%
Precision Application
11%
Moving Part
11%
Absolute Error
11%
Crosscorrelation
11%
Earth and Planetary Sciences
Flow Velocity
88%
Science and Technology
66%
Sprayer
66%
Sample
33%
Error
33%
Bias
22%
Solenoid
22%
Investigation
11%
Monitor
11%
Utilization
11%
Ability
11%
Need
11%
Estimate
11%
Proving
11%
Family
11%
Cause
11%
Dye Tracer
11%
Plugging
11%
Rest
11%
Cross Correlation
11%
Nozzle Flow
11%
Agricultural and Biological Sciences
Nozzle
100%
Sprayers
66%
Technology
55%
Testing
22%
Bias
22%
Objectives
11%
Varieties
11%
Precision
11%
Calibration
11%
Measurement
11%
Estimation
11%
Correlation
11%
Application Technology
11%
Physics
Flow Velocity
88%
Technology
66%
Performance
11%
Estimates
11%
Utilization
11%
Cross Correlation
11%
Plugging
11%
Nozzle Flow
11%